CN103442651B - For disposing the fastening instrument comprising the closure system retaining matrix - Google Patents

Abstract

The invention discloses a kind of surgery suturing appliance, described surgery suturing appliance can comprise 1) comprise the shank of actuator, and 2) comprising the end effector of near-end, far-end and longitudinal axis, described longitudinal axis extends between near-end and far-end.Described end effector also can comprise the first jaw and the second jaw, described first jaw can support the staple comprising staple lower limb, in addition, described second jaw supports the matrix element relative with staple, and the one in wherein said jaw can towards another one motion to make matrix element engage with staple lower limb.Described suture instruments also can comprise and the cam that connects of actuator operable ground, and wherein said cam can longitudinally be out of shape to make staple lower limb by axial-movement.

Description

For disposing the fastening instrument comprising the closure system retaining matrix

Background technology

Technical field

The present invention relates to a kind of surgical instruments, and in various embodiments, the present invention relates to the surgical cutting and suture instruments and nail bin thereof that are designed to cutting and suture tissue.

Background technology

Endoscopic surgical apparatus is usually better than traditional open surgical device, because less otch often reduces post-operative recovery time and complication.Therefore, significant exploitation has been carried out to the endoscopic surgical apparatus be applicable to end effector is accurately arranged on required surgical site place through the sleeve pipe of the trocar.These distal end effector in many ways joining tissue to realize diagnosing or therapeutic effect (such as intracavity stapler, grasper, sickle, stiching instrument, applicator, access to plant, medicine/gene treatment delivery apparatus and utilize the energy device of ultrasound wave, RF, laser etc.).

In many endoscopic surgical application, it is desirable to adopt the end effector only with size needed for particular surgeries.End effector is less, operative site visual better.Less end effector also can more successfully enter and handle in tight quarters.The designer of this end effector is attempting to face many challenges when developing little end effector.Manufacture little end effector and more particularly manufacture and be designed to cut and the ability of little intracavity stapler of suture tissue is subject to the restriction of actuation force size, described actuation force normally makes the staple formation of embarking on journey necessary.This actuation force also can change along with the thickness of processed tissue and composition.Such as, cut and sew up thick tissue and usually need larger actuation force.But the actuation force cutting and sew up thinner tissue expectation is less.Therefore, many existing intracavity staplers adopt strong anvil block closed-system and staple drive system usually, and described anvil block closed-system and described staple drive system can adapt to the tissue thickness of particular range.But this device is not usually suitable for the thinner tissue of process.

Previous intracavity cutting and stitching apparatus is is usually also cut and organized when staple drives and is shaped in tissue on the every side of otch.Although this device is very effective for needing the operation of cutting fastening tissue, but it cannot make surgeon's mounting fastener when not cutting and organizing.Equally, although developed various forms of radial type intracavity stapler to improve and enter, but the element usually adopted in this device substantially must be large enough to hold and can produce from the shank of device and transmit enough percussions and the closing force structure to end effector.Therefore, the usually excessive and tight quarters that cannot effectively enter in body of this end effector.

Therefore, need to provide the surgical cutting and suture instruments and cartridge device that can solve above-mentioned many challenges.

Above-mentioned discussion just to illustrating the some shortcomings part existed at present in the art, and should not regard the negative to right as.

Summary of the invention

In at least one form, a kind of surgery suturing appliance can comprise: the shank comprising actuator; From the axle that shank extends; And from the end effector that axle extends, the longitudinal axis that described end effector comprises the near-end that the is attached to axle far-end relative with near-end, extends between near-end and far-end; Can support the first jaw of staple, described staple comprises staple lower limb; Comprise the second jaw of keeper, described keeper can support the matrix element relative with staple, and wherein said second jaw can towards described first jaw motion to make matrix element engage with staple lower limb; And with the cam that connects of actuator operable ground, wherein said cam can longitudinally be out of shape to make staple lower limb by axial-movement.

In at least one form, a kind of surgery suturing appliance can comprise: the shank comprising actuator; From the axle that shank extends; From the end effector that axle extends, the longitudinal axis that described end effector comprises the near-end that the is attached to axle far-end relative with near-end, extends between near-end and far-end; Can support the first jaw of staple, described staple comprises staple lower limb; Comprise the second jaw of keeper, described keeper can support the matrix element relative with staple, and wherein said second jaw can towards the first jaw motion to make matrix element engage with staple lower limb; And with the anvil block that connects of actuator operable ground, wherein said anvil block can longitudinally be out of shape to make staple lower limb by axial-movement.

In at least one form, a kind of surgery suturing appliance can comprise: shank; From the axle that shank extends; From the end effector that axle extends, the longitudinal axis that described end effector comprises the near-end that the is attached to axle far-end relative with near-end, extends between near-end and far-end; Can support the first jaw of staple, described staple comprises staple lower limb; Comprise the second jaw of keeper, described keeper can support the matrix element relative with staple, and wherein said second jaw can towards the first jaw motion to make matrix element engage with staple lower limb; And the deformation device for making staple lower limb be out of shape, wherein said deformation device can longitudinally be out of shape to make staple lower limb by axial-movement.

Accompanying drawing explanation

In conjunction with the drawings with reference to the following explanation of the embodiment of the present invention, above-mentioned and further feature of the present invention and advantage and its implementation will become more apparent, and can understand invention itself better, wherein:

Fig. 1 is the sectional view of surgical instruments embodiment of the present invention;

Figure 1A is the perspective view of an embodiment of implantable nail bin of the present invention;

Figure 1B-1E illustrate the end effector of various embodiments of the invention for clamping and the part of suture tissue and implantable nail bin embodiment of the present invention;

Fig. 2 is the decomposition assembling view of a part for end effector embodiment of the present invention and surgery suturing appliance embodiment;

Fig. 3 is the side front view of anvil block embodiment of the present invention;

Fig. 4 is the sectional view of a part for the assembly of shank shown in Fig. 1;

Fig. 5 is the partial sectional view of shank assembly shown in Fig. 1 of intercepting along the line 5-5 in Fig. 1;

Fig. 6 is the perspective view that a part for embodiment is transmitted in percussion of the present invention;

Fig. 7 is the partial sectional view of shank assembly shown in Fig. 1 of intercepting along the line 7-7 in Fig. 1;

Fig. 8 is the partial sectional view of a part of shank assembly shown in Fig. 7 of intercepting along the line 8-8 in Fig. 7;

Fig. 9 is that surgical instruments embodiment of the present invention is locked to the sectional view before described spine at described end effector after end effector has been connected to the spine of surgical instruments;

Fig. 9 A is the zoomed-in view of a part for the end effector shown in Figure 10 and surgical instruments;

Figure 10 is the sectional view of surgical instruments shown in Fig. 9 after end effector has been locked to the spine of surgical instruments;

Figure 10 A is the zoomed-in view of a part for the end effector shown in Figure 10 and surgical instruments;

Figure 11 is that the surgical instruments shown in Fig. 9 and Figure 10 has been advanced the sectional view after the starting point in the clamping slideway portion of anvil block at the first percussion adapter;

Figure 11 A is the zoomed-in view of a part for the end effector shown in Figure 11 and surgical instruments, wherein accommodates tissue between its anvil block and nail bin;

Figure 12 is the sectional view of the surgical instruments shown in Fig. 9 to Figure 11 after the first percussion adapter has advanced in the clamping slideway portion of anvil block;

Figure 12 A is the zoomed-in view of a part for the end effector shown in Figure 12 and surgical instruments;

Figure 13 be the surgical instruments shown in Fig. 9 to Figure 12 the first percussion adapter advanced on staple formation slideway thus make in implantable nail bin staple be shaped completely after sectional view;

Figure 13 A is the zoomed-in view of a part for the end effector shown in Figure 13 and surgical instruments;

Figure 14 be the surgical instruments shown in Fig. 9 to Figure 13 the first percussion adapter advanced on staple formation slideway thus make in implantable nail bin staple be shaped completely after and sectional view after knife bar is longitudinally advanced through end effector;

Figure 14 A is the zoomed-in view of a part for the end effector shown in Figure 14 and surgical instruments;

Figure 15 is the view sub-anatomy of a part for the ridge component of the other end of the present invention executor's embodiment and surgical instruments embodiment of the present invention;

Figure 16 is that the end effector embodiment shown in Figure 15 is in an open position and be attached to the partial sectional view of surgical instruments embodiment;

Figure 17 is another partial sectional view that the end effector embodiment shown in Figure 15 and Figure 16 is in complete clamped position;

Figure 18 be the end effector embodiment shown in Figure 15 to Figure 17 be in complete firing position and distal tip component advance before another partial sectional view;

Figure 19 is that the end effector embodiment shown in Figure 15 to Figure 18 is in complete firing position and another partial sectional view after distal tip component advances completely;

Figure 20 is the sectional view of a part for another shank Assemblies Example of the present invention;

Figure 21 is the partial sectional view of a part of shank assembly shown in Figure 20 of intercepting along the line 21-21 in Figure 20;

Figure 22 is the partial sectional view of a part of shank assembly shown in Figure 20 of intercepting along the line 22-22 in Figure 20;

Figure 23 is the partial sectional view of a part of shank assembly shown in Figure 20 of intercepting along the line 23-23 in Figure 20;

Figure 24 is the sectional view of a part for another shank Assemblies Example of the present invention;

Figure 25 is the partial cut away side views that the other end of the present invention executor's embodiment is connected to a part for surgical instruments embodiment of the present invention, its end effector supports surgery nail bin embodiment of the present invention, and the anvil block of end effector is in an open position;

Figure 26 is another partial cut away side views in the close position of the end effector shown in Figure 25;

Figure 27 is another partial cut away side views when knife bar begins to pass end effector and is pushed into of the end effector shown in Figure 25 and Figure 26;

Figure 28 is another partial cut away side views when knife bar is partly advanced through wherein of the end effector shown in Figure 25 to Figure 27;

Figure 29 is the partial cut away side views that the other end of the present invention executor's embodiment is connected to a part for surgical instruments embodiment of the present invention, its end effector supports another surgery nail bin embodiment of the present invention, and the anvil block of end effector is in an open position;

Figure 30 is another partial cut away side views when knife bar is partly advanced through wherein of the end effector shown in Figure 29;

Figure 31 is the sectional view of another surgical instruments embodiment of the present invention, and the anvil block of its end effector is in an open position;

Figure 32 is the decomposition assembling view of a part for the end effector embodiment shown in Figure 31 and surgery suturing appliance embodiment;

Figure 33 is the top view of a part for the slender axles assembly of the end effector shown in Figure 31 and surgical instruments, and wherein some part is shown in the cross section of the 33-33 intercepting in Figure 31 along the line;

Figure 34 is the top view of the end effector of surgical instruments shown in Figure 31 and a part for slender axles assembly, and wherein some part is shown in cross section;

Figure 35 is another top view of the end effector of surgical instruments shown in Figure 31 and a part for slender axles assembly, and its end effector is in radial type orientation and end effector is in an open position;

Figure 36 is another top view of end effector shown in Figure 35, and its end effector is in closed or clamped position;

Figure 37 is the zoomed-in view of a part for end effector shown in Figure 36 and surgical instruments embodiment;

Figure 38 is the sectional view of a part for the shank assembly of surgical instruments shown in Figure 31;

Figure 39 is another sectional view of a part of shank assembly shown in Figure 38 of intercepting along the line 39-39 in Figure 38;

Figure 40 is the joint ball of various embodiments of the present invention and the partial, exploded perspective view of socket structure;

Figure 41 is the top view being in the end effector of another surgical instruments embodiment of non-articulated formula orientation and a part for slender axles assembly of the present invention;

Figure 42 is the part of end effector shown in Figure 41 and slender axles assembly another top view when being in articulated position;

Figure 43 is the sectional view of another surgical instruments embodiment of the present invention;

Figure 44 is the partial sectional view of a part for the radial type shaft assembly of the embodiment of surgical instruments shown in Figure 43;

Figure 44 A is the sectional view of a part for the shaft assembly of radial type shown in Figure 44;

Figure 44 B is another sectional view of another part of the shaft assembly of radial type shown in Figure 44;

Figure 44 C is another sectional view of another part of the shaft assembly of radial type shown in Figure 44;

Figure 44 D is another sectional view of another part of the shaft assembly of radial type shown in Figure 44;

Figure 44 E is another sectional view of another part of the shaft assembly of radial type shown in Figure 44;

Figure 44 F is another sectional view of another part of the shaft assembly of radial type shown in Figure 44;

Figure 45 is the partial sectional view of radial type shaft assembly shown in Figure 44 of intercepting along the line 45-45 in Figure 44;

Figure 46 is the partial sectional view of radial type shaft assembly shown in Figure 44 of intercepting along the line 46-46 in Figure 44;

Figure 47 is another sectional view of surgical instruments shown in Figure 43, and the end effector of wherein said surgical instruments is shown in complete articulated position;

Figure 48 is the sectional view of end effector shown in Figure 47, and wherein corrugated tube shape covering extends across articulated joint;

Figure 49 is the sectional view of the shank assembly of another surgical instruments embodiment of the present invention;

Figure 50 is the decomposition assembling view of the far-end of end effector shown in Figure 49 and slender axles assembly;

Figure 51 is another sectional view of the part of end effector shown in Figure 50 and slender axles assembly, and its end effector is in an open position;

Figure 52 is another sectional view of the part of end effector and slender axles assembly, and its end effector is in the close position;

Figure 53 is another sectional view of end effector and slender axles shown in Figure 49 to Figure 52, and wherein cutter component is in complete firing position;

Figure 54 is the perspective view in an open position of the end effector shown in Figure 51 to Figure 53;

Figure 55 is the sectional view of end effector shown in Figure 51 to Figure 54 of intercepting along the line 55-55 in Figure 51;

Figure 56 is the fragmentary, perspective view of the slender axles assembly of another embodiment of the present invention, and described slender axles assembly is attached to end effector embodiment of the present invention;

Figure 57 is the partial sectional view of the shank assembly of another surgical instruments embodiment of the present invention;

Figure 58 is the sectional view of a part of slender axles assembly shown in Figure 56 and Figure 57 of intercepting along the line 58-58 in Figure 57;

Figure 59 is the zoomed-in view of a part for the assembly of shank shown in Figure 57;

Figure 60 is the sectional view of the distal portion of the assembly of slender axles shown in Figure 56 to Figure 59;

Figure 61 is the fragmentary, perspective view of the slender axles assembly of another embodiment of the present invention, and described slender axles assembly is attached to end effector embodiment of the present invention;

Figure 62 is the sectional view of a part for the reconfigurable axle section of slender axles shown in Figure 61;

Figure 63 is the fragmentary, perspective view of the slender axles assembly of another embodiment of the present invention, and described slender axles assembly is attached to end effector embodiment of the present invention;

Figure 64 is the sectional view of the shank assembly of another surgical instruments embodiment of the present invention;

Figure 65 is the sectional view of a part of slender axles assembly shown in Figure 63 and Figure 64 of intercepting along the line 65-65 in Figure 64;

Figure 66 is the zoomed-in view of a part for the assembly of shank shown in Figure 64;

Figure 67 is the sectional view of a part for reconfigurable axle section shown in Figure 63, and each tubulose chain section of wherein said part linearly aligns substantially;

Figure 68 is the sectional view of a part for reconfigurable axle section shown in Figure 63 and Figure 67, and each tubulose chain section of wherein said part is substantially to bend the orientation alignment of (non-coaxial);

Figure 69 is the perspective view of alternative nail bin embodiment of the present invention, and described nail bin is installed in surgical cutting of the present invention and stitching devices embodiment;

Figure 70 is the surgery nail bin of Figure 69 shown device and the top view of elongated passageway;

Figure 71 is the top view of another surgery nail bin embodiment of the present invention, and described surgery nail bin is installed in the elongated passageway of end effector embodiment of the present invention;

Figure 72 is the upward view of anvil block embodiment of the present invention;

Figure 73 is the fragmentary, perspective view of multiple staples of a part for the formation of staple line embodiment of the present invention;

Figure 74 is the line of staple shown in Figure 73 embodiment another fragmentary, perspective view after its staple is shaped by contacting with the anvil block of surgical cutting and stitching devices;

Figure 75 is the fragmentary, perspective view of the alternative staple of a part for the formation of another staple line embodiment of the present invention;

Figure 76 is the fragmentary, perspective view of the alternative staple of a part for the formation of another staple line embodiment of the present invention;

Figure 77 is the fragmentary, perspective view of the alternative staple of a part for the formation of another staple line embodiment of the present invention;

Figure 78 is the sectional view of end effector embodiment of the present invention, and described end effector embodiment supports nail bin embodiment of the present invention;

Figure 79 is that the elongated passageway portion of end effector shown in Figure 78 is removing the sectional view after implantable staple cartridge body portion and staple;

Figure 80 is the sectional view of end effector embodiment of the present invention, and described end effector supports another nail bin embodiment of the present invention;

Figure 81 is the partial sectional view of surgery suturing appliance embodiment of the present invention, wherein in the end effector of described surgery suturing appliance, supports nail bin, moves to unlocked position to make nail bin locking system;

Figure 82 is another partial sectional view of surgery suturing appliance shown in Figure 81, and wherein nail bin to remove and nail bin locking system is in latched position from end effector;

Figure 83 A-83D describes according at least one embodiment the distortion being positioned at the surgical staple of staple cartridge body of can collapsing;

Figure 84 A illustrates that be arranged in can the figure of staple of conquassation staple cartridge body;

Figure 84 B be illustrate shown in Figure 84 A can conquassation staple cartridge body by the figure of anvil block conquassation;

Figure 84 C be illustrate shown in Figure 84 A can conquassation staple cartridge body by the figure of the further conquassation of anvil block;

Figure 84 D illustrates that the staple shown in Figure 84 A is in complete shaped configuration and can be in the figure of complete conquassation state by conquassation nail bin shown in Figure 84 A;

Figure 85 illustrates the staple of locating against nail bin stayed surface and the figure that the potential relative motion between staple and nail bin stayed surface is shown;

Figure 86 is the surface-supported sectional view of nail bin, and described nail bin stayed surface comprises slit or groove, for the staple shown in stable Figure 85;

Figure 87 is the sectional view of the staple according at least one alternative embodiment, and described staple comprises the bizet of overmolding and can hold the slit of a part or the groove of described bizet;

Figure 88 is the top view of the nail bin according at least one embodiment, and described nail bin comprises the staple embedding and can collapse in staple cartridge body;

Figure 89 is the front view of nail bin shown in Figure 88;

Figure 90 is the front view of the nail bin according at least one embodiment, and described nail bin comprises the protective layer around the staple being positioned at staple cartridge body of can collapsing;

Figure 91 is the sectional view of nail bin shown in Figure 90 of intercepting along the line 91-91 in Figure 90;

Figure 92 is the front view of the nail bin according at least one embodiment, and described nail bin comprises and extends can the collapse staple outside staple cartridge body and the protective layer around described staple cartridge body at least in part;

Figure 93 is the sectional view of nail bin shown in Figure 92 of intercepting along the line 93-93 in Figure 92;

Figure 94 is the partial cutaway view of the nail bin according at least one embodiment, and described nail bin comprises the staple that embedding at least in part can be collapsed in staple cartridge body, and described staple is arranged in the staple lacuna of described staple cartridge body at least in part;

Figure 95 is the sectional view of nail bin shown in Figure 94 of intercepting along the line 95-95 in Figure 94;

Figure 96 is the partial cutaway view of the nail bin according at least one embodiment;

Figure 97 is the partial cutaway view of the nail bin according at least one embodiment, and described nail bin comprises staple that embedding at least in part can collapse in staple cartridge body and connects described staple and make the alignment matrix that described staple is relative to each other alignd;

Figure 98 is the sectional view of nail bin shown in Figure 97 of intercepting along the line 98-98 in Figure 97;

Figure 99 is the partial cutaway view of the internal layer of compressible staple cartridge body;

Figure 100 illustrates that the internal layer shown in Figure 99 is compressed in the figure between transfer blade and gripper shoe;

Figure 101 illustrates that staple is inserted into the figure in the compressed internal layer shown in Figure 100;

Figure 102 illustrates that gripper shoe shown in Figure 100 is by the figure removed from internal layer;

Figure 103 is the figure that the sub-component comprising staple shown in internal layer shown in Figure 99 with the Figure 101 be inserted in skin is shown;

Figure 104 illustrates that skin shown in Figure 103 is sealed to be formed the figure of sealing nail bin;

Figure 105 is the sectional view of the nail bin of sealing shown in Figure 104;

Figure 106 is the sectional view of nail bin according at least one embodiment and nail bin passage;

Figure 107 illustrates that a part for nail bin shown in Figure 106 is in the figure of deformation state;

Figure 108 is the front view of the end effector of surgical stapling device, and described end effector comprises anvil block in an open position and is positioned at the nail bin of nail bin passage;

Figure 109 is the front view of end effector shown in Figure 108, its nail bin anvil block in the close position being shown and being compressed between anvil block and nail bin passage;

Figure 110 is the front view of end effector shown in Figure 108, and it illustrates that the nail bin shown in Figure 108 is positioned at nail bin passage with alternative;

Figure 111 is the sectional view of the end effector of surgical stapling device, and described end effector comprises the compressible nail bin being positioned at nail bin passage and the one piece of backing material being attached to anvil block;

Figure 112 is the sectional view of end effector shown in Figure 111, and it illustrates anvil block in the close position;

Figure 113 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the nail bin with impermeable stratum;

Figure 114 is the sectional view of another alternative embodiment of the end effector of surgical stapling device;

Figure 115 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises staged anvil block and comprises the nail bin of staged warehouse;

Figure 116 is the sectional view of another alternative embodiment of the end effector of surgical stapling device;

Figure 117 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the tissue contacting surface of inclination;

Figure 118 is the sectional view of another alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the tissue contacting surface of inclination;

Figure 119 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the support insert for supporting nail bin;

Figure 120 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the nail bin with multiple compressible stratum;

Figure 121 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the nail bin with the compressible warehouse of staged;

Figure 122 is the sectional view of another alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the nail bin with the compressible warehouse of staged;

Figure 123 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the nail bin with bending tissue contacting surface;

Figure 124 is the sectional view of alternative embodiment of the end effector of surgical stapling device, and described end effector comprises the nail bin of the tissue contacting surface with inclination;

Figure 125 is the sectional view of compressible nail bin, and described compressible nail bin comprises staple and wherein stores at least one medicament;

Figure 126 be illustrate the compressible nail bin shown in Figure 125 by compression and wherein the figure after the staple distortion held;

Figure 127 is the partial cutaway view of the nail bin according at least one embodiment;

Figure 128 is the sectional view of nail bin shown in Figure 127;

Figure 129 be according at least one alternative embodiment implant the perspective view of nail bin;

Figure 130 be shown in Figure 129 implant the sectional view of nail bin;

Figure 131 is the perspective view of alternative embodiment of nail bin, and described nail bin comprises the deformable member extended from the skin of nail bin;

Figure 132 is the perspective view of alternative embodiment of nail bin, and it is outer that described nail bin comprises the nail bin being assembled to internal layer;

Figure 133 is the sectional view of alternative embodiment of nail bin, and described nail bin comprises multiple staple, compressible stratum and degreasing cotton layer;

Figure 134 is the perspective view of degreasing cotton layer shown in Figure 133;

Figure 135 is the perspective view of the absorbent cotton be partitioned into from the degreasing cotton layer shown in Figure 133 and the staple of aliging with the groove in absorbent cotton;

Figure 136 is the perspective view of two connected absorbent cottons from degreasing cotton layer shown in Figure 133;

Figure 137 be degreasing cotton layer shown in Figure 133 absorbent cotton support frame by from the perspective view that removes of the absorbent cotton that is partitioned into;

Figure 138 is the decomposition diagram of alternative embodiment of compressible nail bin, and described compressible nail bin comprises staple and for driving the system of staple against anvil block;

Figure 138 A is the partial cutaway view of alternative embodiment of nail bin shown in Figure 138;

Figure 139 is the sectional view of nail bin shown in Figure 138;

Figure 140 is the front view of the sledge that can traverse the nail bin shown in Figure 138 and staple is moved towards anvil block;

Figure 141 is the figure that staple driver is shown, described staple driver can be promoted towards anvil block by the sledge shown in Figure 140;

Figure 142 is the excision view of the nail bin according at least one alternative embodiment, and described nail bin comprises the staple being positioned at staple driver;

Figure 143 is the sectional view of the nail bin shown in Figure 142 when being positioned at nail bin passage;

Figure 144 is the sectional view of nail bin shown in Figure 142, and it illustrates the anvil block moving to make position and the staple be contained in nail bin of being out of shape by anvil block;

Figure 145 is the sectional view of nail bin shown in Figure 142, and it illustrates the staple moved upward towards anvil block;

Figure 146 is the perspective view of alternative embodiment of nail bin, and described nail bin comprises the band of each flexible side connecting nail bin;

Figure 147 is the perspective view of sledge and cutting element assembly;

Figure 148 illustrates to use the sledge shown in Figure 147 and cutting element assembly to promote the figure of the staple of nail bin shown in Figure 142;

Figure 149 illustrates can engage staple and promote the sledge of staple towards anvil block and optionally can make the figure of the block sytem of sledge distal motion;

Figure 150 A-150C illustrates process staple inserted in staple bizet;

Figure 151 is the sectional view of the nail bin comprising supporting disk or keeper;

Figure 152 is the partial sectional view of the compressible nail bin according at least one alternative embodiment;

Figure 153 is figure when illustrating that the nail bin shown in Figure 152 is in implanting state;

Figure 154 is the partial cutaway view of the compressible nail bin according at least one alternative embodiment;

Figure 155 is the partial sectional view of nail bin shown in Figure 154;

Figure 156 is figure when illustrating that the nail bin shown in Figure 154 is in implanting state;

Figure 157 be according at least one alternative embodiment can the partial sectional view of conquassation nail bin;

Figure 158 is the partial cutaway view comprising the collapsed nail bin of multiple crushable member according at least one embodiment;

Figure 159 is the perspective view of the crushable member shown in Figure 158 when being in non-collapsed state;

Figure 160 is the perspective view of the crushable member shown in Figure 159 when being in collapsed state;

Figure 161 A is the partial sectional view of the end effector of surgery suturing appliance, the nail bin passage that described end effector comprises jaw, relatively locate with described jaw and the nail bin being positioned at described nail bin passage, wherein said jaw comprises the reservation matrix being attached to jaw;

Figure 161 B is the partial sectional view of end effector shown in Figure 161 A, it illustrates towards the jaw of nail bin passage movement, by anvil block and the nail bin and the staple that retain matrix compression, described staple extends through at least in part and retaining the tissue between matrix and nail bin;

Figure 161 C is the partial sectional view of end effector shown in Figure 161 A, and it illustrates the jaw being in final position and the reservation matrix engaged with the staple shown in Figure 161 B;

Figure 161 D is the partial sectional view of end effector shown in Figure 161 A, and it illustrates that jaw and nail bin passage are away from implanted nail bin and the motion of reservation matrix;

Figure 162 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises multiple holding member, for engaging the fastener leg extending through described retaining holes;

Figure 163 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises six holding members;

Figure 164 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises eight holding members;

Figure 165 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises multiple holding member, for engaging the fastener leg extending through described retaining holes;

Figure 166 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises six holding members;

Figure 167 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises eight holding members;

Figure 168 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises the multiple holding members be stamped to form by sheet metal;

Figure 169 is the perspective view of the retaining holes of reservation matrix according at least one alternative embodiment, and described reservation matrix comprises multiple holes that the periphery along described retaining holes extends;

Figure 170 is the top view of the retaining holes of reservation matrix according at least one alternative embodiment;

Figure 171 is the top view of the retaining holes of reservation matrix according at least one alternative embodiment;

Figure 172 is the top view of the retaining holes of reservation matrix according at least one alternative embodiment;

Figure 173 is the top view of the retaining holes of reservation matrix according at least one alternative embodiment;

Figure 174 is the top view of the retaining holes of reservation matrix according at least one alternative embodiment;

Figure 175 is the top view of the retaining holes of reservation matrix according at least one embodiment, and described retaining holes comprises the reservation lug extended in described retaining holes;

Figure 176 is the top view of the retaining holes of reservation matrix according at least one alternative embodiment, and described retaining holes comprises the reservation lug extended in described retaining holes;

Figure 177 is the perspective view of fastening system, and described fastening system comprises multiple staple, the reservation matrix engaged with described staple and the alignment matrix can aliging described staple;

Figure 178 is the perspective view retaining matrix shown in Figure 177;

Figure 179 is the perspective view of alignment matrix shown in Figure 177;

Figure 180 is the partial top view of the reservation matrix shown in Figure 177 when engaging with the staple shown in Figure 177;

Figure 181 is the partial bottom view of the reservation matrix shown in Figure 177 when engaging with the staple shown in Figure 177;

Figure 182 is the partial elevation view of fastening system shown in Figure 177;

Figure 183 is the fragmentary, perspective view of fastening system shown in Figure 177;

Figure 184 is the partial sectional view of the reservation matrix shown in Figure 177 when engaging with the staple shown in Figure 177;

Figure 185 is the partial sectional view of fastening system shown in Figure 177;

Figure 186 is the perspective view of fastening system shown in Figure 177, and described fastening system also comprises the protectiveness cap being assembled to staple lower limb;

Figure 187 is the bottom perspective view of fastening system structure shown in Figure 186;

Figure 188 is the fragmentary, perspective view of fastening system structure shown in Figure 186;

Figure 189 is the partial sectional view of fastening system structure shown in Figure 186;

Figure 190 is the front view of the end effector according at least one embodiment, and described end effector comprises jaw in an open position, be arranged in the reservation matrix of jaw and multiple protectiveness cap and be arranged in the nail bin of nail bin passage;

Figure 191 be the end effector shown in Figure 190 in the close position time front view;

Figure 192 is the front view of the end effector shown in Figure 190 when being in firing position;

Figure 193 be the reservation matrix shown in Figure 190 and protectiveness cap be assembled to shown in Figure 190 nail bin time front view;

Figure 194 is the detail drawing of structure shown in Figure 193;

Figure 195 is the front view of end effector shown in Figure 190, and it illustrates jaw in an open position and is retaining the comparatively thin tissue between matrix and nail bin;

Figure 196 is the front view of end effector shown in Figure 190, and it illustrates the jaw in the close position against the tissue shown in Figure 195;

Figure 197 is the front view of end effector shown in Figure 190, and it illustrates and is in firing position to catch the jaw compared with thin tissue shown in Figure 195 between reservation matrix and nail bin;

Figure 198 is front view when reservation matrix and protectiveness cap are assembled to the nail bin shown in Figure 190 and make the thin tissue shown in Figure 195 therebetween shown in Figure 190;

Figure 199 is the detail drawing of structure shown in Figure 198;

Figure 200 is the sectional view being positioned at the protectiveness cap on staple lower limb top according at least one alternative embodiment;

Figure 20 1 is the perspective view of the multiple protectiveness caps be embedded in material piece;

Figure 20 2 is perspective views of jaw, and described jaw comprises multiple depressed part and is accommodated therein for by multiple protectiveness cap;

Figure 20 3 is detail drawings of a part for jaw, and a described part comprises the thin slice for covering the protectiveness cap being positioned at jaw shown in Figure 20 2;

Figure 20 4 is the sectional views being positioned at the protectiveness cap on staple lower limb top according at least one alternative embodiment, and wherein said protectiveness cap comprises inner profiled surface;

Figure 20 5 is another sectional views of protectiveness cap shown in Figure 20 4, and it illustrates the staple lower limb be out of shape against profiled surface;

Figure 20 6 is the top views of the alternative embodiment retaining matrix, and described reservation matrix comprises multiple connected matrix element;

Figure 20 7 is the top views of the alternative embodiment retaining matrix, and described reservation matrix comprises multiple connected matrix element;

Figure 20 8 is the top views of the alternative embodiment retaining matrix, and described reservation matrix comprises multiple connected matrix element;

Figure 20 9 is the top views of the alternative embodiment retaining matrix array, and described reservation matrix array comprises multiple connected matrix element;

Figure 21 0 is the top view of the alternative embodiment retaining matrix, and described reservation matrix comprises multiple connected matrix element;

Figure 21 1 is the exploded view comprising the jaw retaining matrix, and described reservation matrix comprises compressible covering;

Figure 21 2 is the detail drawings retaining matrix shown in Figure 21 1;

Figure 21 3 is the partial sectional views comprising the fastening system retaining matrix, and described reservation matrix comprises multiple unit of compressible stratum and one or more medicines of encapsulating;

Figure 21 4 illustrates that staple lower limb pierces through the figure of unit shown in Figure 21 3 when engaging with reservation matrix;

Figure 21 5 is the partial sectional views comprising the fastening system retaining matrix, and described reservation matrix comprises compressible stratum;

Figure 21 6 is front views of fastener cartridge plug-in package, and described fastener cartridge plug-in package comprises clamper, the first fastener cartridge and the second fastener cartridge;

Figure 21 7 is front views of the end effector of surgical stapling device, and described surgical stapling device comprises the first jaw and the second jaw, and described second jaw is shown in open configuration;

Figure 21 8 is front views of end effector shown in Figure 21 7, and it illustrates the second jaw of being in closed configuration and for loading the first storehouse for the first jaw and the fastener cartridge plug-in package shown in the Figure 21 6 loading the second storehouse for the second jaw;

Figure 21 9 is front views of end effector shown in Figure 21 8 of having loaded, its illustrate remove from end effector storehouse plug-in package, be again in the second jaw of open configuration and the tissue between the first jaw and the second jaw;

Figure 22 0 is the front view that the end effector loaded shown in Figure 21 9 is in percussion configuration;

Figure 22 1 is in the first storehouse of implanting state and the front view in the second storehouse;

Figure 22 2 is front views of end effector shown in Figure 21 7, and it illustrates the part in the first storehouse still engaged with the first jaw according at least one embodiment;

Figure 22 3 is front views of alternative embodiment of fastener cartridge plug-in package, and described fastener cartridge plug-in package comprises clamper, the first fastener cartridge and the second fastener cartridge;

The first jaw that Figure 22 4 is used to end effector loads the first storehouse and the front view of fastener cartridge plug-in package shown in the Figure 22 3 loading the second storehouse for the second jaw;

Figure 22 5 is the sectional views having loaded end effector shown in Figure 22 4;

Figure 22 6 is the perspective views comprising the surgical stapling device of bottom jaw and top jaw according at least one embodiment, and wherein some part of surgical stapling device is removed;

Figure 22 7 be removed top jaw Figure 22 6 shown in the perspective view of surgical stapling device;

Figure 22 8 is perspective views of the slidably anvil block system of the top jaw of surgical stapling device shown in Figure 22 6, and described slidably anvil block system comprises the first slidably anvil block and second slidably anvil block;

Figure 22 9 is end-views of slidably anvil block system shown in Figure 22 8;

Figure 23 0 is the top view of slidably anvil block system shown in Figure 22 8;

Figure 23 1 illustrates that the slidably anvil block system shown in Figure 22 8 is in the figure of non-cock;

Figure 23 2 be to illustrate shown in Figure 22 8 slidably first of anvil block system slidably anvil block be in non-firing position and the staple being positioned at bottom jaw is in the figure of non-deployed position;

Figure 23 3 be illustrate the staple being arranged in bottom jaw be in dispose configuration and shown in Figure 23 2 first slidably anvil block be pulled to the figure that nearside is out of shape to make the staple lower limb of first group of staple;

Figure 23 4 to illustrate shown in Figure 23 3 that first group of staple is deformed into the figure of the state of being badly deformed;

Figure 23 5 be to illustrate shown in Figure 22 8 slidably second of anvil block system slidably anvil block be pushed to distally to make the figure of second group of staple lower limb distortion;

Figure 23 6 is the fragmentary, perspective views comprising the anvil block of multiple shaping pit according at least one embodiment;

Figure 23 7 is cross sectional end view of anvil block shown in Figure 23 6;

Figure 23 8 is the figure of the first step that shaping pit shown in shop drawings 236 is shown;

Figure 23 9 is the figure of the second step that shaping pit shown in shop drawings 236 is shown;

Figure 24 0 is the top view of the shaping bowl configurations of anvil block shown in Figure 23 6;

Figure 24 1 is the figure of the first step of the manufacturing process illustrated for the manufacture of anvil block;

Figure 24 2 is the figure of the second step that manufacturing process shown in Figure 24 1 is shown; And

Figure 24 3 is the figure of the third step that manufacturing process shown in Figure 24 1 is shown.

Described these graphic in, corresponding reference marks all represents corresponding parts.The example illustrated herein illustrates the preferred embodiments of the present invention in one form, this example should be interpreted as it is limit the scope of the invention by any way.

Detailed description of the invention

The applicant of the application also has following U.S. Patent application, and these patent applications and the application submit on the same day, and each with way of reference separately entirety be incorporated to herein:

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalStaplingInstrumentWithaVariableStapleFormingSyst em ", attorney END6848USNP/100533;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalStaplingInstrumentWithInterchangeableStapleCartr idgeArrangements ", attorney END6849USNP/100534;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalCuttingandFasteningInstrumentsWithSeparateandDis tinctFastenerDeploymentandTissueCuttingSystems ", attorney END6839USNP/100524;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalStaplingInstrumentWithCompactArticulationControl Arrangement ", attorney END6847USNP/100532;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " JawClosureArrangementsForSurgicalInstruments ", attorney END6736USNP/100060;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalInstrumentsWithReconfigurableShaftSegments ", attorney END6734USNP/100058;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalStapleCartridgesSupportingNon-LinearlyArrangedSt aplesandSurgicalStaplingInstrumentsWithCommonStaple-Form ingPockets ", attorney END6735USNP/100059;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SurgicalStapleCartridgesWithDetachableSupportStructuresa ndSurgicalStaplingInstrumentsWithSystemsForPreventingAct uationMotionsWhenaCartridgeisNotPresent ", attorney END6855USNP/100540;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " ImplantableFastenerCartridgeHavingaNon-UniformArrangemen t ", attorney END6840USNP/100525;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " ImplantableFastenerCartridgeComprisingaSupportRetainer ", attorney END6841USNP/100526;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " ImplantableFastenerCartridgeComprisingMultipleLayers ", attorney END6842USNP/100527;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " SelectivelyOrientableImplantableFastenerCartridge ", attorney END6843USNP/100528;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " ImplantableFastenerCartridgeComprisingBioabsorbableLayer s ", attorney END6856USNP/100541;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " CompressibleFastenerCartridge ", attorney END6857USNP/100542;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " FastenersSupportedByaFastenerCartridgeSupport ", attorney END6858USNP/100543;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " CollapsibleFastenerCartridge ", attorney END6859USNP/100544;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " FastenerSystemComprisingaPluralityofConnectedRetentionMa trixElements ", attorney END6860USNP/100546;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " FastenerSystemComprisingaRetentionMatrixandanAlignmentMa trix ", attorney END6861USNP/100547;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " FastenerSystemComprisingaRetentionMatrix ", attorney END6862USNP/100548;

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " FastenerSystemComprisingaRetentionMatrixandaCover ", attorney END6864USNP/100550; And

U.S. Patent Application Serial Number _ _ _ _ _ _ _ _ _, name is called " FastenerSystemComprisingaPluralityofFastenerCartridges ", attorney END6865USNP/100551.

Now some exemplary embodiment will be described, to understand the structure of apparatus and method disclosed herein, function, manufacture and purposes on the whole.One or more examples of these embodiments are shown in the drawings.Those of ordinary skill in the art will be understood that, specifically describes in this article and the apparatus and method be illustrated in accompanying drawing are nonrestrictive exemplary embodiment, and the scope of multiple embodiment of the present invention is only defined by the claims.Carry out the feature of graphic extension or description with regard to an exemplary embodiment, can with the characteristics combination of other embodiment.This modification and version are intended to comprise within the scope of the present invention.

" various embodiment ", " some embodiments ", " embodiment " or " embodiment " that this description is quoted in the whole text etc., refer to that specific features, structure or the characteristic described in conjunction with described embodiment comprises at least one embodiment.Therefore, this description occurs in the whole text phrase " in various embodiments ", " in certain embodiments ", " in one embodiment " or " in an embodiment " etc. might not all refer to identical embodiment.In addition, in one or more embodiments, specific features, structure or characteristic can combine in any suitable way.Therefore, without limitation, the specific features, structure or the characteristic that illustrate or describe in conjunction with an embodiment can be combined with the feature of other embodiment one or more, structure or characteristic whole or in part.This modification and version are intended to comprise within the scope of the present invention.

Term used herein " nearside " and " distally " are for the clinician of manipulation of surgical apparatus shank.Term " nearside " refers to the part near clinician, and term " distally " refers to the part away from clinician.It is also understood that for succinct and clear for the purpose of, the spatial terminology of " vertically ", " level ", "up" and "down" and so on can be used such as herein by reference to the accompanying drawings.But surgical instruments uses in many directions and position, and these terms nonrestrictive and/or absolute.

There is provided various exemplary means and method to perform abdominal cavity mirror and micro-wound surgical operation operation.But those skilled in the art will readily appreciate that, various method disclosed herein and device can be used in many surgical procedures and application (comprise and such as operate with open surgery the application combined).Continue to consult this detailed description of the invention, those skilled in the art will be further understood that, various apparatus disclosed herein can by any way in insertosome, such as by nature tract, by being formed at the otch or puncturing hole etc. in tissue.The access to plant that the working portion of apparatus or end effector part can be plugged directly in patient body or by having service aisle inserts, and the end effector of surgical instruments and slender axles advance by described service aisle.

See accompanying drawing, wherein in all views, the element that similar digitized representation is similar, Fig. 1 illustrates the surgical instruments 10 can putting into practice some beneficial effects specific to the present invention.Surgery suturing appliance 10 is designed to handle and/or activate operationally be attached to the various forms of surgery suturing appliance 10 and the end effector 12 of size.In the embodiment shown in Fig. 1 and Fig. 2, such as end effector 12 comprises elongated passageway 14, and this elongated passageway forms the lower jaw 13 of end effector 12.Elongated passageway 14 can support " implantable " nail bin 30 and movably support the anvil block 20 of the upper jaw 15 being used as end effector 12.

In various embodiments, elongated passageway 14 such as can be processed by 300 & 400 serial 17-4 & 17-7 rustless steel, titanium etc., and can be formed with spaced-apart sidewalls 16.Anvil block 20 such as can be processed by 300 & 400 serial 17-4 & 17-7 rustless steel, titanium etc., and staple formation lower surface can be had, described staple formation lower surface is totally denoted as 22 and is wherein formed with multiple staple formation pit 23.See Figure 1B-1E.In addition, anvil block 20 has and is divided into two-part slide assemblies 24 from anvil block 20 proximad projection.Anvil block pin 26, from each horizontal lateral process of slide assemblies 24, to be contained in respective slots in the sidewall 16 of elongated passageway 14 or opening 18, thus is conducive to anvil block pin 26 movably or to be pivotally attached to described respective slots or opening 18.

Various forms of implantable nail bin can use together with the various embodiments of surgical instruments disclosed herein.Below will discuss specific nail bin configuration and structure in more detail.But, implantable nail bin 30 shown in the embodiment shown in Figure 1A and Fig. 9-14.In at least one embodiment, nail bin 30 has body 31, is supported with the unfashioned metal staples 32 of many rows in body 31, and body 31 is made up of compressible hemostatic material (such as oxidized regenerated cellulose (ORC) or can the foam of bio-absorbable).In at least certain embodiments, for preventing the influenced and hemostatic material of staple from being activated during introducing and position fixing process, whole storehouse can be coated with or be enclosed with biodegradable film 38, such as, with trade mark six cyclic ketones films sold or with polyglycerol sebacate (PGS) film or with by PGA(polyglycolic acid, sell with trade mark Vicryl), PCL(polycaprolactone), PLA or PLLA(polylactic acid), PHA(polyhydroxyalkanoatefrom), PGCL(poliglecaprone 25, sell with trade mark Monocryl) or other biodegradable film of being formed by the complex of PGA, PCL, PLA, PDS, described film is only just permeable when breaking.The size of the body 31 of nail bin 30 is configured to be supported on removedly in elongated passageway 14 as shown in the figure, make when anvil block 20 be driven to be formed with nail bin 30 contact time, each staple 32 wherein is all alignd with corresponding staple formation pit 23.

In use, once the contiguous target tissue location of end effector 12, end effector 12 is just manipulated to be caught target tissue or is clamped between the end face 36 of nail bin 30 and the staple forming face 22 of anvil block 20.Staple 32 is shaped in the following way: motion anvil block 20 in the path being arranged essentially parallel to elongated passageway 14, with make staple forming face 22 and more particularly staple formation pit 23 wherein substantially contact the end face 36 of nail bin 30 simultaneously.Along with anvil block 20 continues to move in nail bin 30, the leg 34 of staple 32 contacts corresponding staple formation pit 23 in anvil block 20, and this staple formation pit is used for making staple lower limb 34 bending to make staple 32 be configured as " B shape ".Anvil block 20 will compress staple 32 further towards the further motion of elongated passageway 14 and make staple 32 be configured as the final forming height " FH " of expectation.

Above-mentioned staple formation process is illustrated in Figure 1B-1E substantially.Such as, Figure 1B illustrates end effector 12, and its target tissue " T " is between anvil block 20 and the end face 36 of implantable nail bin 30.Fig. 1 C illustrates the initial clamped position of anvil block 20, and wherein anvil block 20 has been closed up on target tissue " T ", between the end face 36 target tissue " T " being clamped in anvil block 20 and nail bin 30.Fig. 1 D illustrates initial staple formation, and wherein anvil block 20 has started to compress nail bin 30, makes the leg 34 of staple 32 begin through the staple formation pit 23 in anvil block 20 and be shaped.Fig. 1 E illustrates the staple 32 being in final shaped state through target tissue " T ", has removed anvil block 20 for clarity.Once staple 32 is shaped and is fastened to target tissue " T ", surgeon just makes anvil block 20 move to open position, can keep being attached to target tissue to make warehouse 31 and staple 32 when withdrawing from end effector 12 from patient.When two jaws 13,15 clamp jointly, end effector 12 makes all staples be shaped simultaneously.All the other " by conquassation " bulk materials 31 are used as hemorrhage (ORC) and staple line strengthening agent (PGA, PDS or any other film composition 38 above-mentioned).In addition, because staple 32 need not leave warehouse 31 at shaping, the probability that therefore staple 32 becomes deformity at shaping is minimized.As used herein, term " implantable " refers to except staple, and the warehouse material for supporting staple also will be maintained in patient body and also finally be absorbed by patient body.This implantable nail bin can be different from prior art and keep together with end effector and the chamber structure therewith removed.These " removable " nail bins generally include staple driver assembly, and therefore its comparable end effector of the present invention is much bigger, and end effector of the present invention is designed to use in conjunction with some unique and novel implantable nail bin embodiment of the present invention.

In various concrete enforcement, end effector 12 can be connected to from the outstanding slender axles assembly 40 of shank assembly 100.End effector 12(is when closed) and slender axles assembly 40 can have similar shape of cross section, and its size is configured to operationally through sleeve pipe needle tubing or in the service aisle of another access instruments form.As used herein, term " operationally passes " and refers to that end effector and inserting by passage or tube opening at least partially of slender axles assembly maybe can pass passage or tube opening, and in passage or tube opening, can handle surgery stitching operation to it.In certain embodiments, when in the closed position, the jaw 13 and 15 of end effector 12 can be end effector provides the shape of cross section of circular to be beneficial to it through circular passage/opening.But end effector and the slender axles Assemblies Example that can imagine various embodiment of the present invention have other shape of cross section, thus can through admission passage and the opening with non-circular transverse cross-section.Therefore, the overall dimension of the cross section of closed end effector by end effector by relevant for the size of the passage that passes or opening.Therefore, an end effector such as can be called as " 5mm " end effector, and this refers to that it operationally can be at least the opening of about 5mm through diameter.

In various embodiments of the present invention, the external diameter of slender axles assembly 40 can be substantially the same with the external diameter of end effector 12 in the close position.Such as, 5mm end effector can be connected to the slender axles assembly 40 with 5mm cross-sectional diameter.But continue to consult this detailed description of the invention, it is evident that, various embodiment of the present invention can use in conjunction with the end effector of different size effectively.Such as, 10mm end effector can be attached to the slender axles with 5mm cross-sectional diameter.On the contrary, for the application entering opening or passage wherein providing 10mm or larger, slender axles assembly 40 can have 10mm(or larger) cross-sectional diameter, but also can activate 5mm or 10mm end effector.Therefore, the external diameter of outer shaft 40 can be identical or different with the external diameter of the closed end effector 12 being attached to outer shaft 40.

As shown in the figure, slender axles assembly 40 linearly distad extends substantially from shank assembly 100, to limit longitudinal axis A-A.In various embodiments, such as slender axles assembly 40 can be about 9-16 inch (229-406mm) length.But, slender axles assembly 40 can be set to other length, and in other embodiments, joint can be had in slender axles assembly 40 or in other words can be conducive to end effector 12 and carry out hinged relative to the other parts of axle or shank assembly, below will discuss it in more detail.In various embodiments, slender axles assembly 40 comprises ridge component 50, and this ridge component extends to end effector 12 from shank assembly 100.The near-end of the elongated passageway 14 of end effector 12 has a pair reservation lug 17 from its projection, the size retaining lug 17 for this pair is configured to be accommodated in corresponding lug opening or support 52, described lug opening or support 52 are arranged in the far-end of ridge component 50, can connect slender axles assembly 40 removedly to make end effector 12.Ridge component 50 can be made up of such as 6061 or 7075 aluminum, rustless steel, titanium etc.

In various embodiments, shank assembly 100 comprises pistol and grasps shell body, and described pistol grasps shell body can be processed to two or more parts so that assembling.Such as, shank assembly 100 as shown in the figure comprises right hand housing member 102 and left hand housing member 104(Fig. 5,7 and 8), described right hand housing member and left hand housing member are formed by polymer or molded of plastic material or in other words processed, and be designed to be fitted to each other together.This housing member 102 and 104 is by snap arrangement that is molded or that in other words formed, nail and pod wherein and/or by binding agent, screw and together with being attached to.Ridge component 50 has near-end 54, and this near-end is formed flange 56.Flange 56 can be supported in groove 106 rotatably, and this groove is formed by from each in housing member 102,104 to the fit ribs 108 of inner process.This structure is conducive to ridge component 50 and is attached to shank assembly 100, makes ridge component 50 can rotate around longitudinal axis A-A along 360 ° of paths relative to shank assembly 100 simultaneously.

As found out further in Fig. 1 and Fig. 4, ridge component 50 is through installing axle bush 60 and being supported by installation axle bush 60, and this installation axle bush is rotatably attached to shank assembly 100.Install axle bush 60 and have proximal flange 62 and distal lip 64, this proximal flange and distal lip limit rotated trench 65, and the leading edge portion 101 of shank assembly 100 can rotatably be contained in therebetween by this rotated trench.This structure makes installation axle bush 60 can rotate around longitudinal axis A-A relative to shank assembly 100.Ridge component 50 is by ridge pin 66 non-rotatably pin joint extremely installation axle bush 60.In addition, rotary knob 70 is attached to and installs axle bush 60.In one embodiment, rotary knob 70 has hollow mounting flange portion 72, and the size in this hollow mounting flange portion is configured to a part of installing axle bush 60 to be contained in wherein.In various embodiments, rotary knob 70 can by such as glass or carbon filled nylon, Merlon, etc. processing, and be also attached to by ridge pin 66 axle bush 60 is installed.In addition, to be formed in mounting flange portion 72 to the reservation flange 74 of inner process and can to extend in the radial groove 68 being formed at and installing in axle bush 60.Therefore, surgeon is by promptly rotary knob 70 and make it rotate relative to shank assembly 100, and makes ridge component 50(and be attached to the end effector 12 of ridge component 50) rotate around longitudinal axis A-A along 360 ° of paths.

In various embodiments, anvil block 20 is held in open position by anvil block spring 21 or other bias structure, as shown in Fig. 1, Fig. 9 A, Figure 10 A and Figure 11 A.Anvil block 20 optionally moves to various closed or clamped position and firing position by trigger system from open position, and described trigger system is labeled as 109 generally.Trigger system 109 comprises " firing member " 110, and in various embodiments, " firing member " 110 comprises hollow firing tube 110.Hollow firing tube 110 axially can move on ridge component 50, therefore forms the outside of slender axles assembly 40.Firing tube 110 can be formed by polymer or other suitable materials processing, and has the near-end 112 of the percussion yoke 114 being attached to trigger system 109.See Fig. 4.In various embodiments, such as pull the trigger yoke 114 can superimposed injection moulding to the near-end 112 of firing tube 110.But, also can adopt other fastener constructions.

As found out in Fig. 1 and Fig. 4, percussion yoke 114 can be rotatably supported on and support in lining ring 120, and this support lining ring axially can move at shank assembly 100.In various embodiments, support lining ring 120 and there is the fin 122 extended laterally for a pair, the size of described a pair fin is set to and is slidably received in fin slit 103 and 105, and described fin slit 103 and 105 is formed in left hand housing member 102 and right hand housing member 104 respectively.See Fig. 7.Therefore, supporting lining ring 120 axially can slide at shank housing 100, makes percussion yoke 114 and firing tube 110 can rotate around longitudinal axis A-A relative to support lining ring 120 simultaneously.As can be seen in Figure 4, firing tube 110 is provided with longitudinal slit 111, to make ridge pin 66 can extend in ridge component 50 through longitudinal slit 111, is conducive to firing tube 110 simultaneously and axially advances on ridge component 50.

Trigger system 109 also comprises percussion trigger 130, and this percussion trigger is advanced for controlling the axis of firing tube 110 on ridge component 50.See Fig. 1.This moving to along distal direction of firing tube 110 is carried out pulling the trigger interactional axially-movable with anvil block 20 and is called as in this article " pull the trigger and move ".As found out in Fig. 1, percussion trigger 130 movably or is pivotally connected to shank assembly 100 by pivot pin 132.Adopt torsionspring 135 to be biased percussion trigger 130 and arrive " the opening " or the original position that do not activate away from the pistol grip portion 107 of shank assembly 100.As found out in Fig. 1 and Fig. 4, percussion trigger 130 has top 134, and this upper movable ground attachment (pin joint) is to percussion chain link 136, and this percussion chain link is movably attached (pin joint) to supporting lining ring 120.Therefore, pulling the trigger trigger 130 will make percussion yoke 114 and firing tube 110 move along distal direction " DD " from original position (Fig. 1 and Fig. 9) towards the motion of the end position (Figure 14) adjacent with the pistol grip portion 107 of shank assembly 100.Percussion trigger 130 away from the pistol grip portion 107 of shank assembly 100 motion (torsionspring 135 biased under) percussion yoke 114 and firing tube 110 will be made to move along proximal direction " PD " on ridge component 50.

Various embodiment of the present invention can use together with the implantable nail bin of configuration with different size.Such as, when with first pull the trigger adapter 140 be combined time, surgical instruments 10 can use together with the 5mm end effector 12 of the about 20mm for supporting implantable nail bin 30 long (or having other length).This end effector size can be particularly well-suited in the dissection and the management of blood vessels that such as realize opposite fine.But, discuss in more detail as following, such as, also by the first percussion adapter 140 is replaced by the second percussion adapter 150, the end effector of surgical instruments 10 and other size and nail bin are combined.In further embodiments, slender axles assembly 40 can be attached to the end effector of only a kind of form or size.In this type of embodiment, such as pressure surface 146 or 158(are separately positioned on percussion adapter 140,150 usually) by being integrally formed in the far-end of firing tube 110-determine according to the specific dimensions of the end effector therewith used.

As found out in fig. 2, the first percussion adapter 140 is hollow have the first spring 142 substantially, and this first spring can extend in the far-end 116 of the opening of firing tube 110.First keeper button 144 is formed in the first spring 142, and its size is set to and is accommodated in retaining holes 117, and this retaining holes is arranged in the distal portions of firing tube 110.See Fig. 1 and Fig. 2.Therefore, for dismantling the first percussion adapter 140 from firing tube 110, user only needs pressure keeper button 144 away from retaining holes 117 and the first percussion adapter 140 is withdrawn from firing tube 110.Also can find out in fig. 2, the first percussion adapter 140 has inner pressure surfaces 146, and this inner pressure surfaces can join with the two-part slide assemblies 24 that are divided into of anvil block 20.

In various concrete enforcement, the two-part slide assemblies 24 that are divided on anvil block 20 comprise a zygodont 45, and it is spaced apart that a described zygodont is held groove (not shown) by blade.Each pointed tooth 45 all has proximal face 27, and when anvil block 20 is in the close position, proximal face 27 is arranged essentially parallel to the bottom of elongated passageway 14.Subsequently, proximal face 27 transits to the clamping slideway 28 away from proximal face 27.See Fig. 3.Clamping slideway 28 is oriented to relative to the proximal face 27 one-tenth angle of pinching " A ".In various embodiments, the such as angle of pinching " A " can be about 15 degree to 30 degree.Discuss in more detail as following, when the first pressure surface 146 contact gripping slideway 28 of the first percussion adapter 140, anvil block 20 will move towards elongated passageway 14, more particularly, move towards the nail bin 30 in elongated passageway 14.Along with the first percussion adapter 140 distal motion further, the first pressure surface 146 contacts the staple formation slideway 29 on each anvil block pointed tooth 45, to be urged to further in nail bin 30 by anvil block 20, thus the staple 32 in nail bin 30 is shaped.Equally as shown in Figure 3, staple formation slideway 29 is relative to clamping slideway 27 with forming angle " B " orientation.In various embodiments, such as forming angle " B " can be about 5 degree to 20 degree.The slide assemblies 24 of anvil block 20 also can have the lower surface 25(such as angle " C " of inclination for about 5 to 40 degree), make when anvil block 20 is in an open position, the surface of the lower surface 25 of inclination make anvil block 20 can be switched to 15 degree open the limit (angle " β " in Figure 11 A).

Now by a kind of method for end effector 12 being connected to removedly ridge component 50 of explaination.Connection process is started by being inserted by the reservation lug 17 on elongated passageway 14 in the lug support 52 in ridge component 50.Subsequently, surgeon advances percussion trigger 130 towards the pistol grip 107 of housing unit 100, with the proximal part 47 distad advancing firing tube 110 and the first percussion adapter 140 to exceed elongated passageway 14, thus lug 17 is remained in its respective support 52.See Figure 10 and Figure 10 A.First percussion adapter 140 is called as " coupled position " in this article relative to this position of lug 17.Various embodiment of the present invention also can have end effector locked component 160, will pull the trigger trigger 130 locks in place after being attached to ridge component 50 at end effector 12.

More particularly, with reference to Fig. 5, Fig. 7 and Fig. 8, an embodiment of end effector locked component 160 comprises and retains pin 162, and this reservation pin is movably supported in the top 134 of percussion trigger 130.Reservation pin 162 is carried out spring towards left hand housing member 104 and is biased by reservation spring 166.When pulling the trigger trigger 130 and being in deactivated (initial) position, reservation pin 162 is biased to and carries out contacting with initial ratchet 163, and this initial ratchet is from left hand housing member 104 to inner process.See Fig. 7 and Fig. 8.As mentioned above, firing tube 110 first distad must be advanced into coupled position, and in coupled position, the reservation lug 17 of end effector 12 remains in the lug support 52 in ridge component 50 by the first percussion adapter 140.Surgeon is by being distad advanced into coupled position towards pistol grip 107 tractive percussion trigger 130 by percussion adapter 140 from original position.When pulling the trigger trigger 130 and being started to activate, retain pin 162 to slide while carrying out contacting with initial ratchet 163, till the first percussion adapter 140 is advanced into coupled position by firing tube 110, now retains pin 162 and be biased in the latch well 164 be formed in left hand housing member 104.See Fig. 8.In various embodiments, when retaining pin 162 and entering in latch well 164, pin 162 can send " click clatter " sound or other sound that can hear, and the sense of touch that end effector 12 can be provided to be " locked " on ridge component 50 for surgeon indicates.In addition, only otherwise wittingly reservations pin 162 is biased out latch well 164, surgeon just can not activate unintentionally and pull the trigger trigger 130 to start to make the staple 32 in end effector 12 be shaped.Similarly, if surgeon's release is in the percussion trigger 130 of coupled position, then retains pin 162 and percussion trigger 130 can be made to remain on this position, be back to original position to prevent percussion trigger 130 and therefore discharge end effector 12 from ridge component 50.

In various concrete enforcement, percussion trigger release-push 167 is installed in the left side housing member 104 of shank assembly 100, discharge wittingly to enable surgeon and retain pin 162, thus make percussion trigger 130 can be further actuated or be back to original position.See Fig. 5, Fig. 7 and Fig. 8.Percussion trigger release-push 167 to be movably mounted in latch well 164 and to be biased by the spring to un-activated position (Fig. 8).When pulling the trigger trigger release-push 167 and being pressed inwardly, it can contact and retains pin 162 and make reservation pin 162 move out outside latch well 163, can be further activated to make percussion trigger 130.

As described hitherto, surgical instruments 10 can be used as handling/the grasp device of position tissue.After trigger 130 is unlocked (keeping release-push 167 by pressure), percussion trigger 130 contacts clamping slideway 28 on anvil block 20 towards the further motion in pistol grip portion 107 by making percussion adapter 140.Along with the Pressure gauge face 146 of the first percussion adapter slides on clamping slideway 28, anvil block will move towards nail bin 30 in elongated passageway 14.Therefore, surgeon can handle anvil block 20 towards nail bin 30 or away from nail bin 30, to firmly grasp betwixt and to discharge tissue and do not make staple formation.

Various embodiment of the present invention also can comprise trigger system locking press button 137, and trigger system locking press button 137 is attached to shank assembly 100 pivotally.See Fig. 1 and Fig. 4.In one form, trigger system locking press button 137 has the breech lock 138 formed on its distal end, and this breech lock is oriented to and engages percussion yoke 114 when pulling the trigger breech lock 138 when release-push is in the first position latching.As found out in Fig. 1 and Fig. 4, late spring 139 is for being biased to the first position latching (Figure 11 and Figure 12) by trigger system locking press button 137.To explain in more detail as following, the point that the clamping slideway 28 distally to anvil block 20 advances by the pressure surface 146 that breech lock 138 corresponds to wherein the first percussion adapter 140 for the position engaging the percussion yoke 114 on the ridge component 50 of percussion yoke 114-now in following moment.Should be appreciated that anvil block 20 will, along path movement, make staple forming face portion 22 be arranged essentially parallel to the end face 36 of nail bin 30 along with the first percussion adapter 140 axially advances on clamping slideway 28.

After end effector 12 is connected to ridge component 50, start staple formation process by first depressing trigger system locking press button 137, with make percussion yoke 114 can on ridge component 50 further distal motion and the most at last anvil block 20 be compressed in nail bin 30.See Figure 13.After pressure trigger system locking press button 137, surgeon continues to activate percussion trigger 130 towards pistol grip 107, thus the pressure surface 146 of the first staple lining ring 140 is driven on the staple formation slideway 29 of correspondence, to form with the staple 32 in nail bin 30 to force anvil block 20 and contact.Trigger system locking press button 137 prevents from by mistake making staple 32 be shaped before surgeon is ready to start staple formation process.In this type of embodiment, surgeon must depress trigger system locking press button 137 to start staple formation process before percussion trigger 130 can be further actuated.

Surgical instruments 10 optionally and only can be used as tissue apposition device.But various embodiment of the present invention also can comprise organizes diced system, and this tissue diced system is labeled as 170 generally.In at least one form, diced system 170 is organized to comprise cutter component 172; Trigger 200 is advanced optionally cutter component 172 to be advanced into actuated position (Figure 14) from the unactuated position (Fig. 1 and Fig. 9-13) adjacent with the near-end of end effector 12 by activating cutter.Cutter component 172 to be movably supported in ridge component 50 and to be attached to knife bar 180 or in other words from knife bar 180 projection.Cutter component 172 can by such as having the Rockwell hardness being greater than 38HRC(and representing with C calibration) 420 or 440 rustless steels of hardness process and can have to be formed at its far-end 174 organizes cutting edge 176, and the slit 31 that can extend through slidably in anvil block 20 and the slit 33 arranged placed in the middle in nail bin 30, to cut the tissue worn and be clamped in end effector 12.See Figure 14 A.As can be seen in Figure 4, knife bar 180 extends through ridge component 50 and has proximal part 182.Proximal part 182 interacts with cutter transporter 190 in a driving manner, and this cutter transporter is operationally attached to cutter and advances trigger 200.In various embodiments, cutter advances trigger 200 to be attached to pivot pin 132, makes cutter advance trigger 200 to carry out pivotable or in other words to activated when without the need to activating percussion trigger 130.In various embodiments, the first cutter tooth wheel 192 is also attached to pivot pin 132, makes cutter advance the actuating of trigger 200 also to make the first cutter tooth take turns 192 pivotables.Be attached with between first cutter tooth wheel 192 and shank housing 100 and pull the trigger return spring 202, be biased to original position or unactuated position cutter to be advanced trigger 200.See Fig. 1 and Fig. 4.

See Fig. 5 and Fig. 6, the various embodiments of cutter transporter 190 also comprise the second cutter tooth wheel 194, and this second cutter tooth is taken turns and is rotatably supported on the second gear shaft 193 and takes turns 192 bridle joints with the first cutter tooth.Second cutter tooth wheel 194 and the 3rd cutter tooth take turns 196 bridle joints, and the 3rd cutter tooth wheel is supported on the 3rd gear shaft 195.Four blade gear 198 is also supported on the 3rd gear shaft 195.Four blade gear 198 can engage in a driving manner be positioned at knife bar 180 near-end on a series of gear teeth or ring 184.Therefore, this structure makes four blade gear 198 can axially drive knife bar 180 in distal direction " DD " or proximal direction " PD ", makes trigger shaft 180 rotate around longitudinal axis A-A relative to four blade gear 198 simultaneously.Therefore, surgeon makes trigger shaft 180 axially advance and final distally promotion cutter component 172 by advancing trigger 200 towards the pistol grip 107 tractive cutter of shank assembly 100.

Various embodiment of the present invention also comprises cutter locking system 210, and cutter locking system 210 prevents the propelling of cutter component 72, unless percussion trigger 130 has been pulled to complete firing position (Figure 13 and Figure 14).Therefore, this structure will prevent the activation of cutter propulsion system 170, is first pulled the trigger or form in tissue except sewing-free.As can be seen in Figure 1, the various concrete enforcement of cutter locking system 210 comprises cutter securing rod 211, and this cutter securing rod 211 is pivotally supported in the pistol grip portion 107 of shank assembly 100.Cutter securing rod 211 has activated end 212, and when pulling the trigger trigger 130 and being in complete firing position, activated end 212 can be engaged by percussion trigger 130.In addition, cutter securing rod 211 has maintenance suspension hook 214 on the other end thereof, and this maintenance suspension hook can engage the latch bar 216 on the first cutting gear 192 in suspension hook mode.Adopt cutter locking spring 218 that cutter securing rod 211 is biased to " locking " position.In this " locking " position, keep suspension hook 214 to keep engaging with latch bar 216, thus prevent cutter from advancing the actuating of trigger 200, unless percussion trigger 130 is in complete firing position.See Fig. 9.

Now by composition graphs 9,9A, 10,10A, 11,11A, 12,12A, 13,13A, 14 and 14A explain the various methods being used for operating at least one surgical instruments embodiment of the present invention.Composition graphs 1, Fig. 9 and Fig. 9 A can understand, and when knife bar 172 is in shown " initial " position or unactuated position, organizes the far-end of the contiguous first percussion adapter 140 of cutting edge 176, make sharp cutting edge 176 of organizing to be exposed to user.Be manufactured at slender axles assembly uses in alternative embodiment of (such as wherein do not adopt and pull the trigger adapter 140,150) together with the end effector of single form or size, the far-end of contiguous firing tube is located, to prevent from equally in these embodiments organizing cutting edge 176 to be exposed to user by the cutting edge 176 of knife bar 172.

Fig. 9 and 9A illustrates the end effector 12 be attached to after ridge component 50 in the lug support 52 by being inserted by the reservation lug 17 on end effector 12 in ridge component 50.As shown in Figure 9, percussion trigger 130 is in unactuated position or original position, and end effector 12 is not yet locked to ridge component 50 by the first percussion adapter 140." P _o" represent and pulled the trigger the distance that trigger 130 can advance before the first percussion adapter 140 starts to advance in the clamping slideway portion 28 of anvil block 20.Cutter advances trigger 200 to be also in the unactuated position of locking.

Figure 10 and Figure 10 A illustrates that percussion trigger 130 is locked to position after the position of ridge component 50 by the first percussion adapter 140 being advanced its end effector 12.This position is called as " connection " position in this article.When being in coupled position, retain pin 162 by snap-fastener to latch well 164(Fig. 8) in, thus the audition providing end effector 12 to be locked to now ridge component 50 for surgeon and sense of touch instruction.Until surgeon depresses percussion trigger release-push 167(Fig. 5, Fig. 7 and Fig. 8 wittingly) to be biased out outside latch well 164 by reservation pin 62, percussion trigger 130 just can be further actuated.Far-end 141 distance of having advanced of the first percussion adapter 140 is represented as distance " l " (Figure 10 A), and pulls the trigger respective distances that yoke 114 advanced on ridge component 50 and be represented as distance " l ' ".Figure 11 and Figure 11 A illustrates and to be depressed and surgeon has activated percussion trigger 130 after the first percussion adapter 140 is moved to the starting point of the clamping slideway 28 on anvil block 20, pull the trigger the position of trigger 130 at release-push (not shown).As found out in these figures, anvil block 20 is biased to open position by anvil block spring 21.The advancing of far-end of the first percussion adapter 140 is represented as distance " l ₁", and pull the trigger respective distances that yoke 114 advanced on ridge component 50 be represented as distance " l ' ₁".Figure 12 and Figure 12 A illustrates the position of the first percussion adapter 140 after the starting point of staple formation slideway 29 being advanced into anvil block 20.This positional representation is obtainable maximum grip amount before staple formation starts.This position is called as " maximum grip position " in this article.As found out in fig. 12, percussion yoke 114 has contacted the breech lock 138 on percussion trigger release-push 137, therefore until when percussion trigger release-push 137 is depressed, percussion yoke 114 could distad be advanced further.As found out in fig. 12, the staple forming face 22 of anvil block 20 is arranged essentially parallel to the end face 31 of nail bin 30.Distance between the staple formation portion 22 of anvil block 20 and the maintenance surface, top of elongated passageway 14 is represented as " C _max".In various embodiments, for have equal thickness substantially body 31 each nail bin 30 for, C _maxcan be such as 0.085 inch to 0.144 inch (about 2.15mm to 3.65mm).In at least one embodiment, such as storehouse thickness can be greater than staple size about 0.01 inch to 0.03 inch (about 0.25mm to 0.76mm).Total distance that first percussion adapter 140 is advanced from original position to this maximum grip position is represented as " l ₂", and pull the trigger the respective distances that yoke 114 advanced on ridge component 50 be represented as " l ' ₂".Position when Figure 13 and Figure 13 A illustrates that percussion yoke 114 is in complete firing position, in complete firing position, the staple 32 in nail bin 30 is shaped completely.When at that position, the distance between the staple formation portion 22 of anvil block 20 and the maintenance surface, top of elongated passageway 14 is represented as " C _min".In various embodiments, complete forming height when leg during for supporting unshaped is about 0.075 inch to 0.134 inch (about 1.90mm to 3.40mm) long (distance " UF " in Figure 1A) and is shaped completely such as the staple of about 0.025 inch to 0.04 inch (about 0.63mm to 1.01mm) (comprising the distance " FF " in Fig. 1 D) nail bin for, " C _min" can be such as about 0.015 inch to 0.030 inch (about 0.38mm to 0.76mm).Total distance that first percussion adapter 140 is advanced from original position to this complete firing position is represented as " l ₃", and pull the trigger the respective distances that yoke 114 advanced on ridge component 50 be represented as " l ' ₃".Can find out equally in fig. 13, percussion trigger 130 is in complete firing position and has contacted the activated end 212 of cutter securing rod 211, with biased maintenance suspension hook 214, itself and the first latch bar 216 of cutting on gear 192 is departed from.

The crosscut of crosscut, especially blood vessel can be one of step that in any surgical operation, difficulty is maximum.In abdominal cavity mirror environment, the difficulty of crosscut is larger, this is because if there is any failure, then whole operation may need almost to convert open surgery to immediately, to prevent catastrophic event.Therefore, expect to adopt a kind of surgery suturing appliance that optionally can cut and organize after disposing staple.Various embodiment of the present invention can meet this demand.

After staple is " fired " in (shaping) to target tissue, surgeon can depress percussion trigger release-push 167, to make percussion trigger 130 can be back to original position under the bias of torsionspring 135, thus make anvil block 20 can bias downwards into open position at the bias of spring 21.When in open position, surgeon can withdraw from end effector 12 and leave implantable nail bin 30 and staple 32.In the application that end effector is inserted into through passage, service aisle etc. wherein, surgeon will make anvil block 20 be back to make position by activating percussion trigger 130, can be withdrawn to make end effector 12 by described passage or service aisle.But if surgeon wants to cut target tissue after percussion staple, then surgeon activates cutter in the above described manner and advances trigger 200, arrives the end of end effector, as shown in Figure 14,14A to drive knife bar 72 to pass target tissue.Figure 14 illustrates that cutter advances the quantity of motion of trigger 200 in the various embodiments of the end effector/nail bin for different length, and wherein knife bar 72 has been advanced into the complete firing position in end effector 12.Subsequently, surgeon can discharge cutter and advance trigger 200, can make percussion transporter that knife bar 72 is back to initial (deactivated) position (Figure 13,13A) to make percussion return spring 202.Once knife bar 72 is back to original position, surgeon just can open end effector jaw 13,15, also in patient body, withdraws from end effector 12 subsequently to be released in implantable storehouse 30 in patient body.Therefore, this surgical instruments of the present invention is conducive to using the little implantable nail bin that is inserted into by relatively little service aisle and passage, simultaneously for surgeon provides percussion staple and do not cut and organize or if necessary in the selection also cut and organized after percussion staple.

As mentioned above, surgical instruments 10 can be combined with other end effector of the nail bin supporting other size, and the cartridge of other size described has the staple of other size and number.Figure 15-19 illustrates the use of end effector 12 ', and end effector 12 ' operationally supports nail bin 30 ', and the staple 32 ' that this nail bin has is greater than the staple 32 in nail bin 30.Such as, the staple 32 in nail bin 30 can be the staple of about 0.080 inch to 0.085 inch (about 2.03mm to 2.15mm), and the staple 32 ' in nail bin 30 ' can be about 0.075 inch (about 1.90mm).In various embodiments, nail bin 30 ' is longer than nail bin 30.Such as, nail bin 30 can be about 0.78 inch (about 20mm) length; And nail bin 30 ' can be about 1.57 inches (about 40mm) length.Figure 15 is the decomposition view of the far-end 55 of end effector 12 ', the second percussion adapter 150 and ridge component 50.As found out in fig .15, elongated passageway 14 ' has a pair isolated sidewall 16 ', has slit or opening 18 ' in each sidewall 16 ', and the size of this slit or opening is configured to hold corresponding anvil block pin 26 '.Anvil block 20 ' and elongated passageway 14 ' can form end effector 12 ' jointly, and the overall diameter of this end effector will allow that end effector 12 ' is through the opening with at least about 0.20 inch (about 5.0mm) diameter.Anvil block 20 ' also has staple formation portion 22 ' and is divided into two-part slide assemblies 24 ', is formed with multiple staple formation pit in described staple formation portion 22 ', and is divided into two-part slide assemblies 24 ' from anvil block 20 ' proximally projection.The near-end 15 ' of elongated passageway 14 ' has a pair reservation lug 17 ' from its projection, and the size retaining lug for this pair is set in the lug support 52 being accommodated in correspondence set in ridge component 50.

As found out in fig .15, the second percussion adapter 150 has body 151 and the nearside lining ring portion 152 of hollow substantially, has the maintenance projection 154 extended internally in nearside lining ring portion 152.Be provided with slit 156 between body 151 and nearside lining ring portion 152, to make lining ring portion 152 can be biased relative to body 151, be beneficial to maintenance projection 154 to insert in the retaining holes 117 in firing tube 110.For dismantling the second percussion adapter 150 from firing tube 110, surgeon need depress nearside lining ring portion 152 maintenance projection 154 to be shifted out outside retaining holes 117, thus makes the second percussion adapter 150 can distally be pulled away from firing tube 110.

In various embodiments, anvil block 20 ' has and is divided into two-part slide assemblies 24 ', two-part slide assemblies 24 ' are divided into have a zygodont 45 ', each in a described zygodont 45 ' all has proximal face 27 ', and proximal face 27 ' transits to the clamping slideway 28 ' away from proximal face 27 '.See Figure 15.Clamping slideway 28 ' is oriented to angled relative to proximal face 27 ' " A ' ".In various embodiments, such as angle " A ' " can be about 50 to 30 degree.Discuss in more detail as following, when the second pressure surface 158 contact gripping slideway 28 ' of the second percussion adapter 150, anvil block 20 ' will move towards elongated passageway 14 ', more particularly, move towards the nail bin 30 ' in elongated passageway 14.See Figure 17.When the second percussion adapter 150 further distal motion time, the second pressure surface 158 contacts the staple formation slideway 29 ' on anvil block pointed tooth 45, to drive anvil block 20 ' towards nail bin 30 ' further, thus the staple 32 in nail bin 30 is shaped.See Figure 18.Staple formation slideway 29 ' is oriented to relative to clamping slideway 27 ' angled " B ' ".In various embodiments, such as angle " B ' " can be about 5 to 20 degree.Spring (not shown) can be provided with, so that anvil block 20 ' is biased to open position between slide assemblies 24 ' and the bottom of elongated passageway 14 '.

Figure 16 illustrates the position of the second percussion adapter 150 after the second percussion adapter 150 is distally advanced into the starting point in clamping slideway portion 28 ' by surgeon.Percussion trigger 130 is above to control the operation of the second percussion adapter 150 about the mode described in the first percussion adapter 140.Position when Figure 17 illustrates that the second percussion adapter 150 is in complete clamped position.Position when Figure 18 illustrates that the second percussion adapter 150 is in complete firing position; In described complete firing position, the staple 32 ' in nail bin 30 ' has passed clamped organizing (not shown) and be shaped.

As mentioned above, implantable nail bin 30 ' is longer than implantable nail bin 30.Therefore, as shown in figure 15, end effector 12 ' also comprises distal blade component 124, and this distal blade component is movably supported in elongated passageway 14 '.Distal blade component 124 has organizes cutting edge 125 and portions of proximal 126, and this portions of proximal can be engaged by knife bar 72.Therefore, if surgeon wants to cut and organize after staple is by percussion, then surgeon needs to activate percussion trigger 200 as mentioned above, makes it contact distal blade component 124 distally to drive knife bar 172, thus drive distal blade component 124 through tissue, as shown in figure 19.Distal blade component 124 can have at least one retainer portion, and this retainer portion can be slided through the slit (not shown) of the corresponding molding in elongated passageway 14 '.This structure make end effector 12 ' can in staple formation and tissue cut after open.Distal blade component 124 to remain in anvil block 20 ' and is removed together with end effector 12 ' when withdrawing from patient body.

Therefore, the various embodiments of surgical instruments 10 have independent suturing mechanism and tissue cutting mechanism, make surgeon can under the condition do not cut and not organized suture tissue.The various embodiments of suture instruments of the present invention can successfully with can pull the trigger different size and use together with the end effector of the different size of the staple of number.Surgical instruments can provide by the kit form comprising apparatus 10 and the first percussion adapter 140 and the second percussion adapter 150, and the second percussion adapter 150 makes apparatus can be used in pulling the trigger the implantable nail bin of different size.

Various uniqueness of the present invention and new embodiment adopt compressible nail bin, described compressible nail bin support be in substantially fixed position for by the staple of anvil block shaping contact.Different from adopting the surgical stapling structure of staple driving element in prior art, the staple in the nail bin of various embodiments of the invention is not driven in anvil block.In various embodiments of the present invention, anvil block is driven in unfashioned staple.The staple formation degree obtained depends on that anvil block is driven to the degree in staple.The size of the shaping that this structure makes surgeon to adjust to be applied to staple or percussion pressure, thus change the final forming height of staple.

In various embodiments, the amount being applied to the percussion campaign of movable anvil block depends on the degrees of actuation of percussion trigger.Such as, if surgeon goes for only partially-formed staple, then only need towards pistol grip 107 partially to interior pressure percussion trigger.Want to obtain more staple formation, surgeon only needs to compress percussion trigger further, anvil block is driven further and contacts to form with staple.As used herein, term " shaping contact " refers to that staple forming face or staple formation pit have contacted the end of staple lower limb and started be shaped by leg or be bent to shaping position.The degree of staple formation refers to the degree that staple lower limb is folded and finally refers to the forming height of staple referred to above.Those skilled in the art will be further understood that, because when applying percussion motion to anvil block 20, anvil block 20 moves with the relation substantially parallel with nail bin, so staple is substantially shaped and has substantially the same forming height simultaneously.

Figure 20-23 illustrates the alternative surgical instruments 10 adopting staple height indicator assemblies 220.In various embodiments, staple height indicator assemblies 220 comprises indicator rod 222, and indicator rod 222 is attached to the top 134 of percussion trigger 130, to move pivotally together with top 134.When pulling the trigger pistol grip 107 pivotable of trigger 130 towards shank assembly 100 to be compacted in nail bin 30 by anvil block 20 as mentioned above, the form 223 that can pass through in left hand housing member 104 observes indicator rod 222.In this type of embodiment, staple height indicator assemblies 220 also comprises and is formed in left hand housing member 104 and corresponds to a series of ratchets 24,26,28 of three phases of staple formation.Specifically, once percussion trigger 130 is initially activated, retain pin 162 just to slide while contacting with initial ratchet 163, till percussion adapter 140 or 150 is advanced into above-mentioned latched position by firing tube 110, now retains pin 162 and be biased in the latch well 164 be formed in left hand housing member 104.When surgeon wants start closed ends executor 12 jaw 13,35, need depress and keep release-push 167, can be further actuated to make percussion trigger 130.When pulling the trigger trigger release-push 167 and being pressed inwardly, it can contact and retains pin 162 and make reservation pin 162 move out outside latch well 163, can be activated to make percussion trigger 130.As mentioned above, surgeon can use the bottom jaw 13 of end effector 12 and top jaw 15 to firmly grasp and manipulating tissue now.When surgeon wants to start staple formation process, percussion trigger release-push 167 need be depressed, thus when surgeon continues pressure percussion trigger 130, percussion yoke 114 can distally be advanced.

The further propelling of percussion trigger 130 can make anvil block 20 move to form with the staple 32 in nail bin 30 to contact.Along with percussion trigger 130 is pressed further, the flush end 165 retaining pin 162 will slide off initial ratchet 163 and contact the first ratchet 224 of the first staple formation amount of corresponding to, and described first staple formation amount is represented by the first staple height symbol 230 on left hand housing member 104.See Figure 20.As shown in the figure, the first staple height symbol 230 comprises the picture that staple has just started to be shaped.Other symbol/labelling can be used to identify this stage of staple formation.When retaining pin 162 and engaging the first ratchet 224, surgeon can hear click.The joint retaining pin 162 and the first ratchet 224 also provides certain tactile feedback by pulling the trigger trigger 130 couples of surgeon.In addition, can pass through the watch window 223 adjacent with the first height staple symbol 230 and observe staple height indicator rod 222.If surgeon wants to make the staple 32 in nail bin be shaped further, then press reservation pin 162 by the release-push 240 be formed in the second side body component 104 and depart to make itself and the first ratchet 224.In various embodiments, such as release-push 240 can utilize hinge 242 and be integrally formed in left hand housing member 104, and hinge 240 is parts of left hand housing member 104.This structure makes release-push 240 can be pressed against in the end 165 retaining pin 162, departs from any one in the first ratchet 224, second ratchet 226 and the 3rd ratchet 228 to make end 165 move.Be pressed into outside the first ratchet 224 once retain pin 162, percussion trigger 130 just can be further depressed, till reservation pin 162 engages the second staple formation ratchet 226.This position of percussion trigger 130 makes anvil block 20 move further, contacts to carry out staple formation with the staple 32 in nail bin 30.Equally, retain in pin 162 snap-fastener to the second staple formation ratchet 226, and pull the trigger for surgeon provides audition and the tactile feedback that trigger 130 is in the second staple formation position.When at that position, staple height indicator rod 222 can pass through watch window 223 and is observed and contiguous second staple height symbol 232.If surgeon wants to make the staple 32 in nail bin 30 be shaped further, then press reservation pin 162 by pressure release-push 240 and itself and the second ratchet 226 are departed from.Subsequently, percussion trigger 130 can be depressed further, till retaining the pin 162 joint three staple formation ratchet 228 corresponding with the final stage of staple formation.Equally, retain pin 162 snap-fastener in the 3rd staple formation ratchet 228, and pull the trigger for surgeon provides audition and the tactile feedback that trigger 130 is in the 3rd staple formation position.When at that position, staple height indicator rod 222 can pass through watch window 223 and is observed and contiguous staple height symbol 234.After staple formation is the amount expected, surgeon can be biased and retain pin 162 away from the 3rd staple height ratchet 228, can be back to original position to make percussion trigger 130.Or if needed, surgeon can start above-mentionedly to organize cutting operation subsequently before percussion trigger 130 is back to original position.

Figure 24 illustrates the alternative embodiment wherein not comprised a series of ratchets corresponding with various staple formation by the staple height indicator assemblies being designated 220 ' generally.But this embodiment comprises staple height indicator rod 222 and watch window 223.Therefore, surgeon is by monitoring that through watch window 223 position of staple height indicator rod 222 monitors reached staple formation amount.This embodiment does not comprise above-mentioned staple height indicator symbol 230,232 and 234.In addition, this embodiment also can comprise the unshaped staple symbol 229 corresponding with original position, and in described original position, staple 32 not yet begins through anvil block 20 and is shaped.In addition, this embodiment will operate in the same manner as described above.

Figure 25 and 26 illustrates alternative end effector 12 ", except the following difference that can hold knife bar 172 ', end effector 12 " be similar to above-mentioned end effector 12 '.Knife bar 172 ' is connected to knife bar 180 or from knife bar 180 projection, and in addition above to operate about the mode described in knife bar 172.But in this embodiment, knife bar 172 ' long enough is to traverse end effector 12 " whole length, therefore end effector 12 " in do not adopt independent distal blade component.Knife bar 172 ' is formed with crosscut component 173 ' and lower crosscut component 175 '.Upper crosscut component 173 ' is oriented to crosscut anvil block 20 slidably " in corresponding elongated slot 250, and lower crosscut component 175 ' be oriented to traverse end effector 12 " elongated passageway 14 " in elongated slot 252.Anvil block 20 " in be also provided with and depart from slit (not shown); make when knife bar 172 ' is driven to end effector 12 " in end position time, upper crosscut component 173 ' falls through corresponding slit, to make anvil block 20 " can open position be moved to, thus with the tissue sewing up and cut depart from.Anvil block 20 " can be in addition identical with above-mentioned anvil block 20, and elongated passageway 14 " can be in addition identical with above-mentioned elongated passageway 14.

In these embodiments, anvil block 20 " be biased to fully open position (Figure 25) by spring or other Unclosing structure (not shown).Anvil block 20 " by percussion adapter 150 axial row of carrying out in the above described manner and then at open position and move between clamped position completely.Once percussion adapter 150 is advanced into complete clamped position (Figure 26), surgeon just can distally make knife bar 172 subsequently in the above described manner " advance.If surgeon wants that end effector is used as grasp device carry out manipulating tissue, then percussion adapter proximally can be moved, to allow anvil block 20 " away from elongated passageway 14 " motion, as shown in the dotted line in Figure 27.In this embodiment, when knife bar 172 " when distally moving; upper crosscut component 173 ' and lower crosscut component 175 ' tractive anvil block 20 simultaneously " and elongated passageway 14 ", with at knife bar 172 " through end effector 12 " reach the staple formation of expectation when distally advancing.See Figure 28.Therefore, in this embodiment, staple formation cut occur simultaneously with tissue, but staple itself can at knife bar 172 " be sequentially shaped when distally being driven.

Figure 29 and 30 illustrates to have anvil block 20 " end effector 12 " use, anvil block 20 " such as by rustless steel, titanium, PGA(polyglycolic acid) or other absorbable plastic processing form, and be flexible to a certain extent.These figure also illustrate the use retaining matrix 6250 and alignment matrix 6206, below will illustrate in greater detail.As found out in Figure 29, when knife bar 172 " through anvil block 20 " distally by driving time, anvil block 20 " flexing is to complete shaping position.

In the application of many surgeries, desirable or advantageously adopt following surgical cutting and suture instruments, described surgical cutting and suture instruments have and can carry out hinged end effector relative to slender axles assembly.But, of the prior art can articulated instrument to enter the ability of compact area usually limited due to the size for carrying out hinged component to end effector and structure.Figure 31-40 illustrates another surgical instruments embodiment of the present invention, and described surgical instruments can make end effector carry out hinged relative to slender axles, and described surgical instruments adopts the hinged control structure of relative compact in shank assembly.

The surgical instruments 310 of this embodiment is substantially similar to above-mentioned various surgical instruments embodiment 10, and difference is, this embodiment adopts radial type shaft assembly 312, to be beneficial to relative to elongated longitudinal axis A-A optionally retaining tips executor 12.Although herein by description surgical instruments 310 be combined with the end effector 12 of the above-mentioned type, but those skilled in the art should be understood that surgical instruments 310 also can be pulled the trigger adapter 150 and is combined with actuation end executor 12 ' or other end effector structure with second.As found out in Figure 31 and Figure 32, radial type shaft assembly 312 comprises distal shaft assembly portion 314, and this distal shaft assembly portion is connected to proximal shaft assembly portion 316 pivotally, and this proximal shaft assembly portion is operationally connected to shank assembly 100.In various embodiments, such as distal shaft assembly 314 comprises distally ridge component 320, has a pair lug support 322 and be contained in wherein for by lug 17 in this distally ridge component.See Figure 32.Distally ridge component 320 has near-end 324, and this near-end comprises pivot base 326, and this pivot base has the pivot pin 328 from its projection.

As found out in Figure 32, proximal shaft assembly portion 316 comprises nearside ridge section 330, and nearside ridge section 330 has nearside pivot base and is attached to the cutter guide rail 332 of described nearside pivot base.Cutter guide rail 332 such as can use binding agent or other fastener constructions and weld or be attached to nearside ridge section 330.Pivot hole 334 is provided with to be rotatably contained in wherein by pivot pin 328 in nearside pivot base cutter guide rail 332, thus make distally ridge section 320 can relative to nearside ridge section 330 around the first pivotal line FA-FA pivotable, described first pivotal line FA-FA crosscut longitudinal axis A-A substantially.Surgical instruments 310 also comprises distally percussion pipeline section 370, and this distally percussion pipeline section is connected to a pair firing tube chain link 380,382, pivotally to move pivotally around the second axis SA-SA.Distally percussion pipeline section 370 has keeper bore 372, is contained in wherein for by the keeper button 144 of the first percussion adapter 140.Described a pair firing tube chain link 380,382 is connected to nearside firing tube 390 pivotally, to move pivotally around the 3rd pivot axis TA-TA relative to nearside firing tube 390.See Figure 32.

In various embodiments, nearside firing tube 390 is attached to rotary knob 400, and rotary knob 400 is rotatably attached to shank assembly 100.See Figure 31, Figure 38 and Figure 39.Rotary knob 400 can be formed by polymer or molded of plastic material, and can comprise central part 402 and flange part 404 isolated with central part 402.The leading edge portion 101 of shank assembly 100 is accommodated between central part 402 and flange part 404, can rotate to make rotary knob 400 relative to shank assembly 100 around longitudinal axis A-A.In other embodiments, rotary knob 400 can be formed by other suitable materials processing.In the embodiment shown, nearside firing tube 390 and nearside ridge section 330 are immovably attached to rotary knob 400 respectively.As found out in Figure 38 and Figure 39, nearside ridge section 330 and nearside firing tube 390 pass through pin 406 pin joint to rotary knob 400.Therefore, surgeon by rotating rotary knob 400 relative to shank assembly 100 along 360 degree of paths around longitudinal axis A-A rotary end executor 12.

See Figure 37, Figure 38 and Figure 40, in various embodiments, end effector 12 optionally carries out hinged by a pair articulated element 420,430 and hinged ball 440 relative to longitudinal axis A-A, described a pair articulated element 420,430 is attached to distally pivot base 326, and hinged ball 440 is rotatably supported in the pod 408 in rotary knob 400.In various embodiments, articulated element 420,430 such as can comprise the cable be processed into by multi-thread cable, Nitinol, titanium etc.First or right side articulated element 420 there is far-end 422, this far-end is formed with lug 424, the size of this lug to be configured to be press-fitted in distally pivot base 326 in the first set cable attachment hole 327.Equally, second or left side articulated element 430 there is far-end 432, this far-end is formed with lug 434, the size of this lug 434 to be configured to be press-fitted in distally pivot base 326 in the second set cable attachment hole 329.See Figure 37.Therefore, end effector 12 is made around first axle FA-FA(Figure 35 and Figure 36 by tractive first or right side articulated element 420) be pivoted to right side, and make end effector 12 be pivoted to left side around first axle FA-FA by tractive second or left side articulated element 430.In various embodiments, right side articulated element 420 can be slidingly received in the right side cable slots 336 formed in nearside ridge section 330, and left side articulated element 430 can be slidingly received in the left side cable slots 338 in nearside ridge section 330.

With reference to Figure 38-40, first articulated element 420 has near-end 426, on near-end 426, forging has or is in other words attached with maintenance ball 428, and keep ball 428 can be contained in first in hinged ball 440 and retain in slit 442, hinged ball 440 is rotatably supported in the pod 401 in rotary knob 400.Equally, the second articulated element 430 has near-end 436, and on this near-end, forging has or is in other words attached with maintenance ball 438, and this maintenance ball can be accommodated in second in hinged ball 440 and retain in slit 444.As can be the most especially found out in Figure 40, hinged ball 440 also has the actuator slits 446 through hinged ball 440, and this actuator slits is conducive to wherein for nearside percussion pipeline section 390 forms straightway passage.As shown in figure 38, actuator slits 446 can from wider peristome 448,450 to hinged ball 440 passage 452 be in the heart tapered, this passage allows that nearside percussion pipeline section 390 passes through in sliding manner.Discuss further as following, hinged ball 440 rotatably or be pivotally supported in pod 401, and optionally moves to the first hinged control position and the second hinged control position (shown in broken lines in Figure 38) from neutral position (illustrating with solid line among Figure 38).Hinged ball 440 also axially moves in pod 401.

As found out in Figure 40, surgical instruments 310 can comprise by the latch-up structure being designated 453 generally, for hinged ball 440 is locked in neutral position, the first hinged control position and the second hinged control position any one.In various embodiments, latch-up structure 453 comprises a series of locking pawl section 454, described a series of locking pawl section is arranged on hinged ball 440 and also can coordinates with the lock rib 410 be formed in depressed part 408, described depressed part is formed in central part 402, and described central part is oriented in the pod region 401 of rotary knob 400.Actuator channel 412 extends through central part 402 and aligns with the actuator slits 446 in hinged ball 440, to hold nearside percussion pipeline section 390 through actuator channel 412.As found out in Figure 38 and Figure 39, actuator ball spring 456 keeps central part 414 advances to be proximally biased hinged ball 440 at the spring of rotary knob 400, and locking pawl 454 is engaged with hold mode with the lock rib 410 in central part 402.

For the benefit of apply pivotal motion to hinged ball 440, the hinged handle 458,460 of a pair horizontal expansion is from the radially contrary direction projection of hinged ball 440.In various embodiments, hinged ball 440 can such as be filled by packless, glass-filled, carbon, mineral-filled etc. Merlon, nylon, process, and can machined or be molded with locking pawl 454 on hinged ball 440.Hinged handle 458,460 is attached to hinged ball 440 by the mode such as press-fit, welding.This latch-up structure make hinged ball 440 can be locked in neutral position or the first articulated position or the second articulated position any one.Once hinged ball 440 is moved to the articulated position reaching end effector and expect by surgeon, surgeon just can discharge hinged ball 440, to make actuator ball spring 456 can proximally be biased hinged ball 440, locking pawl 454 is engaged with hold mode with the lock rib 410 in central part 402.In various embodiments, the size of actuator ball spring 456 can be configured to when hinged end effector is forced to retract by the trocar or similar opening, and hinged ball 440 can spring back to neutral position.In addition, the use of hinged handle 458,460 makes it possible to should be used for " fine setting " hinged degree according to specific surgery.

As found out in Figure 38, the hinged handle 458 of the first hinged handle or right side is through right slot 416 projection in rotary knob 400, and the hinged handle 460 of the second hinged handle or left side is through left slot 418 projection in rotary knob 400.Carry out hinged for making end effector 12 relative to longitudinal axis A-A, hinged handle 458 and the hinged handle 460 in left side on the right side of first surgeon need axially move along distal direction " DD ", depart from from the lock rib 410 central part 402 of rotary knob 400 to make locking pawl 454.Subsequently, surgeon is by making hinged ball 440 carry out pivotable along the motion hinged handle 458,460 of desired orientation to apply pivotal motion to articulated element 420,430.Such as, right side is switched to: along the hinged handle 458 in proximal direction " PD " motion right side by making end effector 12 with under type, and along the hinged handle 460 in distal direction " DD " motion left side, to apply tractive motion (pivotal motion) to right side articulated element 420 and to apply to promote motion to left side articulated element 430.Similarly, left side is switched to: along the hinged handle 460 in proximal direction " PD " motion left side by making end effector 12 with under type, and along the hinged handle 458 in distal direction " DD " motion right side, to apply tractive motion (pivotal motion) to left side articulated element 430 and to apply to promote motion to right side articulated element 420.The various range of movement of the hinged handle 458 in right side and the hinged handle in left side 460 are shown in Figure 38 with dotted line.Thus, end effector 12 can such as be positioned in various angled position by clockwise or counterclockwise adjustment angle best, and rotates or other motion without the need to making slender axles assembly 40 carry out.Figure 35 illustrates angle α, and in various embodiments, angle α can be 0 ° to 45 °.

The various embodiments of surgical instruments 310 comprise through cutter support slit 333 and the knife bar 472 be movably supported in the nearside ridge section 330 of hollow, it is tapered to wide distal part 337 from narrow portions of proximal 335 that cutter supports slit 333, to make knife bar 472 can support slit 333 and flexing around cutter, thus adapt to hinged around longitudinal axis A-A of end effector 12.See Figure 37.In various embodiments, knife bar 472 can be processed by the rustless steel of such as 300 or 400 series, and can have to be formed at its far-end organizes cutting edge 476.As found out further in Figure 37, knife bar 472 is slidably through the cutter slit 473 in distally pivot base 326.The near-end 478 of knife bar 472 is attached to the knife bar 480 extending through nearside ridge section 330, thus engages percussion transporter 190 in a driving manner as mentioned above.See Figure 31.Retain pin 406 and extend to longitudinal slit 392(Figure 38 in nearside percussion pipeline section 390) in and through the hole 339(Figure 39 in nearside ridge section 330) and enter in the longitudinal slit 482 in knife bar 480, pull the trigger pipeline section 390 to make nearside and knife bar 480 axially can move relative to nearside ridge section 330 and shank assembly 100.Therefore, surgeon advances trigger 200 optionally to operate knife bar 472 to cut and organize by operating cutter in the above described manner.

Various articulated structure is disclosed on May 7th, 2010 files an application, authorize FrederickE.SheltonIV and name is called the U.S. Patent application No.12/775 of " LaparoscopicDevicesWithArticulatingEndEffectors ", 809(attorney END6755USNP) and file an application on May 7th, 2010, authorize the people such as FrederickE.SheltonIV and name is called the U.S. Patent application No.12/775 of " BendableShaftForHandlePositioning ", 699(attorney END6756USNP) in, the disclosure of each in above-mentioned U.S. Patent application is incorporated herein by reference respectively.Figure 41 and Figure 42 illustrates alternative radial type shaft assembly 490, this radial type shaft assembly 490 is substantially the same with radial type shaft assembly 340 and operate in essentially the same way, and difference is that middle percussion pipeline section 492 instead of the firing tube chain link 380 adopted in radial type shaft assembly 340.As found out in Figure 41 and Figure 42, middle percussion pipeline section 492 is distally pulled the trigger pipeline section 370 and is extended to nearside percussion pipeline section 390.In various embodiments, middle percussion pipeline section 492 can by nylon, or other flexiplast processes.In various embodiments, middle percussion pipeline section 492 has the compression spine 494 of two longitudinal extensions, extended to be formed the pipeline section of hollow substantially from compression spine 494 by the isolated multiple isolated rib section 496 in space 498, other element of described ridge assembly and knife bar are operationally through the pipeline section of described hollow substantially.Spine 494 proximally can pull the trigger pipeline section 390 and distad pull the trigger pipeline section 370 and transmit compression movement, the size of described compression movement is enough to anvil block 20 to be actuated to complete firing position, makes end effector 12 can be optionally hinged relative to longitudinal axis A-A simultaneously.Middle percussion pipeline section 492 has distal portions 491 and portions of proximal 493, described distal portions 491 is attached to distally percussion pipeline section by the sleeve, snap arrangement etc. such as sold, slot, and described portions of proximal 493 is attached to nearside percussion pipeline section 390 by same or analogous device.In this embodiment, end effector 12 can such as be positioned in various angled position by clockwise or counterclockwise adjustment angle best, and rotates or other motion without the need to making slender axles assembly 490 carry out.Figure 42 illustrates angle [alpha], and in various embodiments, angle [alpha] can be 0 ° to 45 °.

Figure 43-47 illustrates another surgical instruments embodiment of the present invention.Except the various difference of the following stated, the surgical instruments 510 of this embodiment is substantially similar to above-mentioned surgical instruments embodiment 310.Although herein by description surgical instruments 510 be combined with the end effector 12 of the above-mentioned type, but those skilled in the art will understand, surgical instruments also can be pulled the trigger adapter 150 and is combined with actuation end executor 12 ' or can be combined with other end effector structure with second.The various embodiments of surgical instruments 510 comprise radial type shaft assembly 512, are beneficial to relative to longitudinal axis A-A optionally retaining tips executor 12.As found out in Figure 43 and Figure 44, radial type shaft assembly 512 comprises distally ridge component 520, has a pair lug support 522 and be contained in wherein for by lug 17 in this distally ridge component.Distally ridge component 520 has near-end 521, and this near-end is connected to the far-end 531 of nearside ridge section 530 pivotally.Specifically, the near-end 521 of distally ridge section 520 has a pair isolated distally ridge pointed tooth 523 for supporting swivel pin 524, described swivel pin 524 extends through the far-end 531 of nearside ridge section 530, to limit the hinge axes AA-AA of crosscut longitudinal axis A-A substantially.See Figure 46.

In various embodiments of the present invention, end effector 12 can be hinged to various different orientation around longitudinal axis A-A.Such as, the angle [alpha] in Figure 47 ' can in the scope of 180 ° to 90 °.End effector 12 is connected to the articulated element 550 of articulated links 540 by least one and carries out hinged.Articulated links 540 is connected to the far-end 521 of distally ridge section 520 pivotally by distal pin 542.See Figure 43.Articulated links 540 is connected to the far-end 552 of hinge bar 550 pivotally by hinged lever pin 554, as shown in figure 46.As found out in Figure 43, articulated element 550 extends through radial type shaft assembly 512 and has near-end 556, and this near-end 556 extends in rotary knob 560, and this rotary knob 560 is rotatably connected to shank assembly 100.The near-end 556 of articulated element 550 is connected to hinged control member or button 558, and described hinged control member or button 558 are connected to rotary knob 560 slidably to carry out relative to rotary knob 560 optionally axially advancing.Therefore, pivotable is carried out with the method shown in Figure 47 around longitudinal axis A-A by making end effector 12 along distal direction " DD " the hinged button 558 that slides axially.Be back to its end effector for making end effector and be aligned in initial non-articulated position on longitudinal axis A-A with coaxial manner, surgeon only need along proximal direction " PD " sliding actuator button 558 on rotary knob 560.

The same with some embodiment in above-described embodiment, rotary knob 560 is non-rotatably connected to installs axle bush 570, installs axle bush 570 and is rotatably attached to shank assembly 100.See Figure 43 and Figure 47.Axle bush 570 is installed there is proximal flange 572 and distal lip 574, be limited with rotated trench 575 between this proximal flange 572 and distal lip 574, the leading edge portion 101 of shank assembly 100 to be rotatably contained in therebetween.This structure makes installation axle bush 570 can rotate around longitudinal axis A-A relative to shank assembly 100.Nearside ridge section 530 non-rotatably pin joint or in other words (weld, utilize binding agent etc.) be attached to install axle bush 570, make rotary knob 560 end effector 12 can be made to rotate around longitudinal axis A-A around the rotation of longitudinal axis A-A.Should be appreciated that this structure can be conducive to end effector 12 and rotate around longitudinal axis A-A along 360 ° of paths.

This embodiment also has distally firing tube section 580, and distally firing tube section 580 is connected to the first percussion adapter 140 and axially can moves in distally ridge section 520.Specifically, the keeper button 144 on the first percussion adapter 140 is accommodated in the keeper bore 581 in distally percussion pipeline section 580 in the above described manner.Percussion pipeline section 580 in distally pulls the trigger at least one firing member actuating of pipeline section 580 by being attached to distally.In a preferred embodiment, percussion pipeline section 580 in distally is activated by a pair percussion band 582,584 being attached to distally percussion pipeline section 580.Percussion band 582,584 is attached to band base 585, and this band base is connected to nearside percussion pipeline section 590, and this nearside percussion pipeline section 590 is attached to percussion yoke 114 in the above described manner.Cover pipe 592 also advance in nearside ridge section 530 and be connected to rotary knob 560 to rotate together with rotary knob 560.Nearside firing tube 590 and band base 585 axially can move relative to covering pipe 592.Percussion band 582,584 is slidably received within the lateral strip passage 526 in distally ridge component 520, as shown in Figure 44 C.In various embodiments, percussion band 582,584 comprises the thin flexure member that can be processed by such as rustless steel separately, and distally percussion pipeline section 580 can be promoted respectively, thus actuating or closed anvil block 20 are shaped to make the staple 32 in implantable nail bin 30 in the above described manner.The actuating of percussion cable 582,584 is realized by the percussion trigger 130 of tractive in the above described manner.Can tractive percussion cable 582,584 make the first percussion adapter 140 by anvil block 20 tractive to open position or make the first percussion adapter 140 move to position that anvil block 20 to be biased to open position by wherein spring (not shown) when percussion trigger 130 is back to original position.

Surgical instruments 510 also can comprise cutter 534, and the cutter that cutter 534 is movably supported in distally ridge section 520 supports in slit 528.See Figure 44 B.In various embodiments, knife bar 534 can be processed by such as 300 or 400 rustless steels etc., and can have to be formed at its far-end organizes cutting edge 535.Knife bar 534 is attached to the knife-band 536 that can be processed by the rustless steel of 300 or 400 series.Knife-band such as can comprise 0.007 inch of stainless steel band material to 0.012 inch, and described stainless steel band material is more harder than bar.Cutter cable 536 extends through distally ridge component 520, and nearside ridge section 530 is attached to knife bar 480, and this knife bar engages percussion transporter 190 as mentioned above in a driving manner.Therefore, surgeon advances trigger 200 optionally to operate knife bar 534 to cut and organize by operating cutter in the above described manner.Various embodiment also can adopt the covering member 594 of corrugated tube shape to pollute articulated joint to prevent dust, tissue, chip etc.See Figure 48.

Figure 49-53 illustrates another surgical instruments embodiment of the present invention.Except following explained difference, the surgical instruments 610 of this embodiment is substantially similar to above-mentioned surgical instruments embodiment 10.Surgical instruments 610 can activate the end effector 612 with two movable jaws 613,615.In various embodiments, end effector 612 is connected to the slender axles assembly 655 from shank assembly 100 projection.See Figure 49.Slender axles assembly 655 comprises elongated ridge assembly 658 and elongated closure tube assembly 680, and elongated closure tube assembly 680 axially can move along proximal direction and distal direction on ridge assembly 658.As shown in the figure, slender axles assembly 655 longitudinally axis A-A distally extend as the crow flies substantially from shank assembly 100.In various embodiments, slender axles assembly 655 can be about 9 inches to 16 inches (about 228.8mm to 406.4mm) length.But slender axles assembly 655 also can be configured to other length.

See Figure 50 and Figure 51, in various embodiments, the lower jaw 613 of end effector 612 comprises elongated passageway 614, and upper jaw 615 comprises anvil block 620.Elongated passageway 614 has a pair isolated sidewall 616, and described a pair isolated sidewall 616 ends in closed end upwardly or end 618 respectively.Elongated passageway 614 can be processed by the rustless steel of such as 17-4 or 400 series, and its size can be configured to the nail bin that operationally can support nail bin 630 or other form wherein.Anvil block 620 can by 416,17-4,17-7 rustless steel etc. processes.In at least one embodiment, such as end effector 612(is when in the closed position) and slender axles assembly 655 there is maximum outside diameter respectively to allow device operationally through having at least approximately about 0.31 inch to 0.47 inch of 8mm to 12mm() opening of diameter.But end effector 612 and slender axles assembly 655 can have other diameter and shape.End effector 612 also comprises distally ridge section 660, and distally ridge section 660 can be connected to the far-end of nearside ridge section 670 removedly, hereafter will further illustrate.

Anvil block 620 has staple formation portion 622, is formed with multiple staple formation pit in staple formation portion 622.In addition, anvil block 620 has and is divided into two-part closure 624, and this closure comprises at least one and preferably includes a pair closed end 625 to downward-extension.As found out in Figure 50-53, in at least one embodiment, the closed end of the correspondence of closed end 625 and elongated passageway 614 or end 618 by pivot pin 626 pivotally pin joint to ridge ear 633(Figure 55 being divided into two-part far-end 662 of the distally ridge section 660 of ridge assembly 658), make when viewed from the side, closed end 625 and closed end 618 are formed and are designated movable " scissor-shaped " closing structure of 628 generally.In other embodiments, anvil block 620 is movably connected to elongated passageway 614.

The various embodiments of end effector 612 also comprise the knife assembly 640 that can axially move, knife assembly 640 comprises knife plate 642, knife plate 642 comprises a pair isolated knife bar 644 from knife plate 642 distally projection, and described a pair isolated knife bar 644 axially can slide between the ridge ear 663 of distally ridge section 660.See Figure 55.Cutter component 646 is attached to or is in other words formed on the far-end of knife bar 644.In various embodiments, knife bar 644 and cutter component 646 can be processed by the rustless steel of such as 300 or 400 series.The far-end of cutter component 646 is formed and organizes cutting edge 648.The bottom 649 of cutter component 646 can engage staple and drive sledge 650, and this staple drives sledge to be movably supported in slender axles 614.Staple drives sledge 650 can remain in slit in elongated passageway 614 or slot configurations (not shown), is beneficial to staple and drives sledge 650 axially to move to end position (Figure 53) from original position (Figure 50-52), keep being connected to elongated passageway 614 simultaneously.Staple drives on sledge 650 has one or more staple drive surfaces 652, described staple drive surfaces is oriented to the staple 632 engaged in a driving manner in nail bin 630, and the staple formation portion 622 when cutter component 646 distally advances through end effector 612 towards anvil block 620 upwards drives staple 632.

In addition, in various embodiments, distally ridged nut 668 is rotatably connected to the near-end 664 of distally ridge section 660, rotatably to advance around longitudinal axis A-A relative to near-end 664.Distally ridged nut 668 has the lug 669 extended internally for a pair, the size of the described lug 669 extended internally for a pair is configured to be contained in the corresponding lug slit 674 in the far-end 672 of shank assembly 100 projection of nearside ridge section 670, can rotate to make distally ridge section 660 relative to nearside ridge section 670.As found out in Figure 49, nearside ridge section 670 pin joint passes through pin 66 to rotary knob 70(), this rotary knob 70 is rotatably mounted to shank assembly 100 in the above described manner, is beneficial to end effector 612 and rotates along 360 ° of paths around longitudinal axis A-A.

As found out in Figure 49, the near-end 671 of nearside ridge section 670 is formed with flange 676.Flange 676 can be supported in groove 106 rotatably, and this groove is formed by the fit ribs 108 of each in housing member 102,104 to inner process.This structure is conducive to lateral ridge section 670 nearly and is attached to shank assembly 100, makes nearside ridge section 670 can rotate around longitudinal axis A-A along 360 ° of paths relative to shank assembly 100 simultaneously.Nearside closes pipeline section 682 and can be formed by polymer or other suitable materials processing and can be had near-end 683, and this proximal attachment is to percussion yoke 114, and described percussion yoke constructs in above-mentioned various mode and is movably arranged in shank assembly 100.In various embodiments, such as pull the trigger yoke 114 and can close the near-end 683 of pipeline section 682 by superimposed injection moulding to nearside.But, also can adopt other fastener constructions.As mentioned above, percussion yoke 114 can be supported on rotatably to be supported in lining ring 120, and this support lining ring axially can move at shank assembly 100.As found out in Figure 49, close pipeline section 682 through nearside and be provided with longitudinal slit 681, to make ridge pin 66 can through longitudinal slit 681 and extend in nearside ridge section 670, be conducive to nearside simultaneously and close pipeline section 682 and axially advance in distally ridge section 670.

As found out in Figure 49, percussion trigger 130 has can the top 134 of pivotable (pin joint) relative to percussion chain link 636,638, and percussion chain link 636,638 can pivotable (pin joint) relative to support lining ring 120.Therefore, pull the trigger trigger 130 percussion yoke 114 and nearside will be made to close pipeline section 682 towards the motion in the pistol grip portion 107 of shank assembly 100 to move along proximal direction " PD " (shown in broken lines in Figure 49).Fixture and percussion trigger 130 will make percussion yoke 114 and firing tube 110 move along proximal direction " DD " in nearside ridge section 670 away from the motion in the pistol grip portion 107 of shank assembly 100.

As found out in Figure 50-53, nearside closes pipeline section 682 and has far-end 684, and far-end 684 can be attached to the near-end 692 that distally closes pipeline section 690.In the embodiment shown, distally closes pipeline section 690 can close pipeline section 682 far-end 684 by being threadedly attached to nearside.Distally closes in the far-end 694 of pipeline section 690 has tapered drive member 696, this tapered drive member can join with scissors-like closing structure 628, make when distally closes the position that pipeline section 690 is in shown in Figure 51, the one or more end effector springs 617 between elongated passageway 614 and anvil block 620 are for being biased to the open position shown in this figure by anvil block 620.But when closing pipeline section 690 along proximal direction " PD " tractive distally, tapered drive member 696 can contact scissors-like closing structure 628, to make jaw 613(elongated passageway 614) and 615(anvil block 620) court pivotally.See Figure 52 and Figure 53.

Surgical instruments 610 also can comprise cutter propulsion system 639, cutter propulsion system 639 comprises the knife bar 700 that extends through nearside ridge section 670 and has the proximal part 702 join with percussion transporter 190 in a driving manner, and percussion transporter 190 is operationally attached to cutter propelling trigger 200 in the above described manner.Therefore, surgeon advances trigger 200 by tractive cutter in the above described manner and knife bar 700 is distally advanced.As found out in Figure 52 and Figure 53, knife bar 700 has and is divided into two-part far-end 704, and this is divided into two-part far-end to comprise toolholder section 706 and lower toolholder section 708, and described upper toolholder section 706 and lower toolholder section 708 can engage knife plate 642.As found out in Figure 51-54, upper toolholder section 706 can slide through the upper slit 773 in ridged nut 668, and lower toolholder section 708 can slide through the lower slit 775 in ridged nut 668.

For using surgical instruments 610, by the lug 669 on ridged nut 668 being inserted the far-end 672 in lug support 674 corresponding with it in nearside ridge section 670, end effector 612 being attached to nearside ridge section 670.See Figure 50.Subsequently, surgeon or clinician can relative to slender axles assembly 655 rotary end executors 612, are screwed to nearside and close on pipeline section 682, thus form closure tube assembly 680 distally to be closed pipeline section 690.Can have nail bin 630 in end effector 612, or nail bin can be mounted in elongated passageway 614 by clinician at this moment or after a while.Once end effector 612 is attached to the slender axles assembly 655 of surgical instruments 610, surgeon (such as passes through the trocar or endoscope etc. by the admission passage extended in patient body, or by otch-in the situation of open surgery) insert end effector 612 and slender axles assembly 655, with the target tissue promptly between end effector jaw 613,615.The same with above-mentioned various embodiment, carry out closed jaw 613,615 by handling percussion trigger 130 relative to the pistol grip 107 of shank assembly 100.Once target tissue is grasped between end effector jaw 613,615, surgeon is just by be compacted to staple 632 " percussion " anvil block 620 in nail bin 630 in the above described manner or to be formed in target tissue.If operation is without the need to cutting target tissue, then surgeon can discharge percussion trigger 130 subsequently, to allow that anvil block 620 moves to open position (under the bias movement from spring 617), thus discharges implantable nail bin 630 from end effector 612.Subsequently, surgeon can closed ends executor jaw 613,615 again, to allow that end effector 612 is withdrawn from by admission passage or service aisle.But if surgeon wants to cut the target tissue between staple line 632, then surgeon advances trigger 200 to pull the trigger knife assembly 640 by operating cutter in the above described manner, distally to drive cutter component 648 through target tissue.Along with cutter component 648 distally moves through end effector 612, cutter component 648 can contact staple and drive sledge 650, this staple drives sledge to be used for driving further staple 632 to contact to make it form with the staple forming face 622 of anvil block 620, thus staple 632 is shaped further.See Figure 53.Subsequently, surgeon can open end effector 612 to discharge target tissue and the implantable nail bin 630 of cutting/stitching from end effector 612.

Therefore, carry out the uniqueness of closed ends executor jaw by distally motion closure tube and novel closure tube structure makes it possible to adopt less closing structure, still keep producing the ability of the large closing force made needed for staple formation simultaneously.In addition, this type of embodiment of the present invention is the motility sewed up during surgeon is provided in without the need to cutting and organizing application and do not cut and organize.

Figure 56-60 illustrates alternative surgical instruments embodiment 810, and except following discussed difference, surgical instruments embodiment 810 is substantially the same with surgical instruments 610.Surgical instruments 810 such as comprises flexible ridge assembly 820, this flexible ridge assembly has near-end, described near-end has flange 822, this flange is rotatably contained in groove 106, and described groove is formed by the fit ribs 108 of each in the housing member 102,104 of self-forming shank assembly 100 to inner process.See Figure 57 and Figure 58.This mounting structure is conducive to flexible ridge assembly 820 and rotatably moves relative to shank assembly 100.In various embodiments, flexible ridge assembly 820 can be processed by such as nylon, acronitrile-butadiene-styrene (ABS), Merlon, liquid crystal polymer, rustless steel, titanium etc., and can use together with the end effector 612 of the above-mentioned type.

Surgical instruments 810 also comprises the slender axles assembly being generally designated 830.In various embodiments, such as slender axles assembly 830 comprises restructural shaft part 840 and nearside shaft part 844.As found out in Figure 56, such as restructural shaft part 840 can have distally and install lining ring 842, and lining ring is such as immovably attached to flexible ridge assembly 820 part by binding agent, welding, securing member etc. is installed in this distally.Restructural shaft part 840 can all parts of reconfigurable section 840 all substantially mutually align between the linear configuration of (that is, it forms substantially straight hollow tubular structure) and the configuration do not alignd with another part with coaxial manner or linear mode at least partially in the wherein described part of reconfigurable section 840 with coaxial manner and optionally reconstructs wherein.In the embodiment shown in Figure 56, such as restructural shaft part 840 can be processed by nylon, acronitrile-butadiene-styrene (ABS), Merlon etc., and multiple rib 846 can be had, described multiple rib 846 section of being conducive to 840 is from the orientation reconstruct of linear or co-axially align to non-linear or non-coaxial (that such as wriggle, bending etc.) orientation and keep this orientation, until user hands or by using other surgical instruments (such as grasp device etc.) to reconstruct shaft part 840.Therefore, restructural shaft part 840 is " can be passive hinged ", and this refers to that this device is not equipped with the hinged articulated mounting for ACTIVE CONTROL section 840.

In various embodiments, proximal shaft section 844 is such as connected to reconfigurable axle section 840 by interlocking structure or pin, and is rotatably attached to shank assembly 100 for being conducive to reconfigurable axle section 840.In at least one embodiment, such as nearside shaft part 844 is connected to installs axle bush 60, and this installation axle bush is rotatably attached to shank assembly 100 in the above described manner.See Figure 57 and Figure 59.

In addition, in various embodiments, closed pipeline section 832 is movably installed on flexible ridge assembly 820, optionally to move on flexible ridge assembly 820.See Figure 56 and Figure 60.As found out in Figure 60, in at least one embodiment, closed pipeline section 832 and ridge assembly 820 are formed with relative flange part 833,821 respectively, make it possible to prevent closed pipeline section 832 from slippage ridge assembly 820, keep movably being arranged on ridge assembly 820 simultaneously.In various embodiments, flexible enclosed member 848 is connected to percussion yoke 114 or comprises a part for percussion yoke 114.See Figure 57 and Figure 59.Flexible enclosed member 848 can be processed by such as rustless steel etc. and can have and extend through elongated slot 834 in ridge assembly 820 to be connected to the distal portions 849 of closed pipeline section 832.This structure is conducive to making closed pipeline section 832 by activating percussion trigger 130 in the above described manner on ridge assembly 820 along distal direction " DD " and proximal direction " PD " motion.

As found out in Figure 56, surgical instruments 810 can use together with end effector 612 above described in detail.Specifically, by being inserted by the lug 669 on ridged nut 668 in lug slit 825 corresponding in the far-end 825 of ridge assembly 820, end effector 612 is connected to flexible ridge assembly 820 removedly.See Figure 60.The far-end 835 of closed pipeline section 832 can close the near-end 692 of pipeline section 690 in the above described manner by being threadedly attached to distally.

In at least one embodiment, surgical instruments 810 also comprises cutter propulsion system 639, cutter propulsion system 639 comprises the knife bar 700 that extends through ridge assembly 820 and has the proximal part 702 join with percussion transporter 190 in a driving manner, and percussion transporter 190 is operationally attached to cutter propelling trigger 200 in the above described manner.Therefore, surgeon advances trigger 200 by tractive cutter in the above described manner and knife bar 700 is distally advanced.Knife bar 700 has and is divided into two-part far-end 704, and this is divided into two-part far-end 704 to comprise toolholder section 706 and lower toolholder section 708, and described upper toolholder section 706 and lower toolholder section 708 can knife plates 642 in engagement end portion executor 612.See Figure 60.

For using surgical instruments 810, by the lug 669 on ridged nut 668 being inserted the far-end 823 in the lug support 825 corresponding with it, end effector 612 being attached to ridge assembly 820.Subsequently, surgeon or the rotatable end effector of clinician 612 are screwed on closed pipeline section 832 distally to be closed pipeline section 690.Can have nail bin 630 in end effector 612, or nail bin can be mounted in elongated passageway 614 by clinician at this moment.Once end effector 612 is attached to the elongated closure tube assembly 830 of surgical instruments 810, restructural shaft part 840 just can be configured so that each slender axles components aligns with coaxial manner by surgeon, to insert by extending to opening in patient body or service aisle (such as by the trocar or endoscope etc., or by otch-in the situation of open surgery).Subsequently, restructural shaft part 840 can reconstruct by surgeon, and its each several part is not alignd mutually with coaxial manner, to be oriented in the position of expectation by the end effector 612 being attached to restructural shaft part 840 relative to target tissue.The same with above-mentioned various embodiment, carry out closed jaw 613,615 by handling percussion trigger 130 relative to the pistol grip 107 of shank assembly 100.Once target tissue is grasped between end effector jaw 613,615, surgeon is just by be compacted to staple 632 " percussion " anvil block 620 in nail bin 630 in the above described manner or to be formed in target tissue.If operation is without the need to cutting target tissue, then surgeon can discharge percussion trigger 130 subsequently, to allow that anvil block 620 moves to open position (under the bias movement from spring 617), thus discharges implantable nail bin 630 from end effector 612.Subsequently, surgeon can closed ends executor jaw 613,615 being reconstructed restructural shaft part 840, to allow that end effector 612 is withdrawn from by admission passage or service aisle again.But if surgeon wants to cut the target tissue between staple line 632, then surgeon advances trigger 200 to pull the trigger knife assembly 640 by operating cutter in the above described manner, distally to drive cutter component 648 through target tissue.Along with cutter component 648 distally moves through end effector 612, cutter component 648 can contact staple and drive sledge 650, this staple drives sledge to be used for driving further staple 632 to contact to make it form with the staple forming face 622 of anvil block 620, thus staple 632 is shaped further.Subsequently, surgeon can open end effector 612 to discharge target tissue and the implantable nail bin 630 of cutting/stitching from end effector 612.

Figure 61 and 62 illustrates another surgical instruments embodiment 810 ', surgical instruments embodiment 810 ' is substantially the same with above-mentioned surgical instruments 810 embodiment, difference is, reconfigurable axle section 850 comprises the part being operationally connected to shank assembly 100 of slender axles assembly 830 ', for operative end executor 612.In various embodiments, restructural shaft part 850 comprises the multiple tubulose chain links 852 movably interconnected.Each tubulose chain link 852 can such as be processed by the nylon, acronitrile-butadiene-styrene (ABS), Merlon etc. or do not have with glass or carbon filling, and can have tubular body portion 854.Tubular body portion 854 can be formed with spherical or spherical coupling portion 856, this spherical or spherical coupling portion has through ridge accommodation passage 858 wherein.In addition, tubulose ridge holds passage 858 and extends in the hollow pod 860 be formed in tubular body portion 854, and the size of this hollow pod is configured to the spherical coupling portion 856 movably holding adjacent tubular chain link 852.The size in spherical coupling portion 856 relative to pod 860 be configured to allow spherical coupling portion 856 by be buckled in wherein and remain on wherein shaft part substantially straight desired configuration can to have the configuration of curved configuration (Figure 62) or serpentine shape configuration (Figure 61) to its axis 850.

Although the size of spherical coupling portion 856 and pod 860 can relative to each other be set to form little frictional force betwixt, to expect in orientation till external force is applied to it so that section 850 is remained on, but the embodiment shown in Figure 60 and Figure 61 adopts locking system 862, each tubulose chain link 852 is kept together releasedly or is locked in immovably in desired configuration.As found out in these figures, locking device 862 be included in be formed at tubulose chain link 852 near its one end 853 periphery at least one, preferably multiple flexible latch tuberosity or component 864.In a preferred embodiment, 4 breech lock tuberositys 864 are adopted.Other embodiment can have 1,2,3 or more than 4 breech lock tuberositys 864.Each tubulose chain link 852 also comprises the locking component 866 corresponding with each breech lock tuberosity 864 of adjacent link 852 other end 865.Have breech lock in each locking component 866 and hold recess 868, this breech lock holds the part that recess can hold the corresponding breech lock tuberosity 864 be formed on adjacent tubular chain link 852 wherein releasedly.

For using surgical instruments 810 ', in the above described manner end effector 612 need be attached to the far-end 823 of ridge assembly 820.The distally of end effector 612 closes pipeline section 690 and is screw-coupled on closed pipeline section 832.Once end effector 612 is attached to the elongated closure tube assembly 830 of surgical instruments 810 ', then restructural shaft part 850 can be configured so that each slender axles components aligns with coaxial manner by surgeon, to insert by extending to opening in patient body or service aisle (such as by the trocar or endoscope etc., or by otch-in the situation of open surgery).Subsequently, surgeon can such as adopt promptly apparatus 869 to construct to expecting orientation by the movable chain link 852 of restructural shaft part 850, and the breech lock subsequently suitable locking tuberosity 864 on each chain link 852 being pressed into its correspondence holds in recess 868, expect in orientation so that each chain link 852 is locked in.See Figure 62.The same with above-mentioned various embodiment, carry out closed jaw 613,615 by handling percussion trigger 130 relative to the pistol grip 107 of shank assembly 100.Once target tissue is grasped between end effector jaw 613,615, surgeon is just by be compacted to staple 632 " percussion " anvil block 620 in nail bin 630 in the above described manner or to be formed in target tissue.If operation is without the need to cutting target tissue, then surgeon can discharge percussion trigger 130 subsequently, to allow that anvil block 620 moves to open position (under the bias movement from spring 617), thus discharges implantable nail bin 630 from end effector 612.Subsequently, surgeon can also use promptly apparatus 869 to be removed from the breech lock accommodation recess 868 of its correspondence by each locking tuberosity 864 by closed ends executor jaw 613,615 again, to allow that each chain link 852 aligns, thus allow that device can be withdrawn from by admission passage or service aisle.But if surgeon wants to cut the target tissue between staple line 632, then surgeon advances trigger 200 to pull the trigger knife assembly 640 by operating cutter in the above described manner, distally to drive cutter component 648 through target tissue.Along with cutter component 648 distally moves through end effector 612, cutter component 648 can contact staple and drive sledge 650, this staple drives sledge to be used for driving further staple 632 to contact to make it form with the staple forming face 622 of anvil block 620, thus staple 632 is shaped further.Subsequently, surgeon can open end effector 612 to discharge target tissue and the implantable nail bin 630 of cutting/stitching from end effector 612.

Figure 63-68 illustrates another surgical instruments embodiment 810 ", except the reconfigurable axle section 870 of slender axles assembly and relevant locking system 882, surgical instruments embodiment 810 " with above-mentioned surgical instruments embodiment 810,810 ' substantially the same.In various embodiments, restructural shaft part 870 comprises multiple tubulose chain link 872 of movably interconnecting and is connected to proximal shaft section 871, and this nearside shaft part is connected to installs axle bush 60, and this installation axle bush is supported in shank assembly 100 as described in detail rotatably.Each tubulose chain link 872 can such as be processed by nylon, acronitrile-butadiene-styrene (ABS), Merlon etc., and can have tubular body portion 874.See Figure 67.Tubular body portion 874 can be formed with spherical or spherical coupling portion 876, spherical or spherical coupling portion 876 have through wherein and extend ridge hold passage 878.In addition, tubulose ridge holds passage 878 and extends in the hollow pod 880 be formed in tubular body portion 854, and the size of this hollow pod is configured to the spherical coupling portion 876 movably holding adjacent tubular chain link 872.Relative to pod 880, the size in spherical coupling portion 876 is configured to allow that spherical coupling portion 876 can have bending (Figure 68) or the configuration of serpentine shape configuration by being buckled in wherein and remaining on substantially be in line desired configuration to its axis 870 of (Figure 67) of wherein restructural shaft part 870.

Although at least one embodiment, the size of spherical coupling portion 876 and pod 880 can relative to each other be configured to form little frictional force betwixt, to expect in orientation till external force is applied to it so that the tubulose chain link 872 of reconfigurable axle section 870 is remained on, but the embodiment shown in Figure 63-68 adopts locking system 882, each tubulose chain link 872 is kept together releasedly or is immovably locked in desired configuration.As found out in Figure 67 and Figure 68, locking device 882 comprises at least one and the preferably lock capsule 884 that expands of two energy selectivitys of extending through the tubulose chain link 872 that is in diameter relative position.In various embodiments, lock capsule 884 can such as be processed by nylon membrane etc. and the pressure fluid from source of pressurised fluid 886 can be held.In the embodiment shown in Figure 64, source of pressurised fluid 886 comprises fluid pump structure 888, and this fluid pump structure can supply air in lock capsule 884 under pressure.Specifically, at least one embodiment, fluid pump structure 888 comprises the cylinder 889 wherein with piston 890.Piston 890 has around the O shape ring of its periphery or other hermetically-sealed construction 891 and is attached to helical pump shank 892, and this helical pump shank threads engages a part for shank assembly 100.Therefore, by screwing in shank assembly 100 by pump shank 892, the air in cylinder 890 can under pressure by extending to the service 893 of manifold component 894 from cylinder 890 and being pumped, and this manifold component is accommodated on ridge assembly 820.By turn pump shank 894 in opposite direction, air pressure is released in lock capsule 884.

As found out in Figure 65, manifold component 894 comprises the annular manifold region 895 be sealed in by O shape ring or other sealing member 896 on every side.Annular manifold region 895 is communicated with supply pipeline 897, and this supply pipeline extends through nearside shaft part 871 and is connected to lock capsule 884 or discharging in lock capsule 884.This structure is used for being supplied to by forced air in lock capsule 884, is conducive to ridge assembly 820 simultaneously and rotatably moves around longitudinal axis A-A relative to shank assembly 100.As used herein, term " pressure fluid " can comprise such as air, saline solution or be preferably glycerol.In alternative embodiment, tubular element can be filled with the low-down rubber of hardness or elastomer.When applying pressure to elastomeric material, elastomeric material can be out of shape to fill space and with mode lock shaft much the same with fluid embodiment.

For using surgical instruments 810 ", in the above described manner end effector 612 need be attached to the far-end 823 of ridge assembly 820 '.The distally of end effector 612 closes pipeline section 690 and is screw-coupled on closed pipeline section 832.Once end effector 612 is attached to surgical instruments 810 " slender axles assembly 830 ", then restructural shaft part 870 can be configured so that each slender axles components 830 by surgeon " align with coaxial manner; to insert by extending to opening in patient body or service aisle (such as by the trocar or endoscope etc., or by otch-in the situation of open surgery).Subsequently, surgeon can adopt such as promptly apparatus to construct the movable chain link 872 of restructural shaft part 870 to expecting orientation.Expect in orientation once restructural shaft part 870 is oriented in, then pump shank 892 can be threaded to pressurize to lock capsule 884 in shank housing 100 by surgeon subsequently, thus movable chain link 872 is locked in the position as shown in Figure 68.The same with above-mentioned various embodiment, carry out closed jaw 613,615 by handling percussion trigger 130 relative to the pistol grip 107 of shank assembly 100.Once target tissue is grasped between end effector jaw 613,615, surgeon is just by be compacted to staple 632 " percussion " anvil block 620 in nail bin 630 in the above described manner or to be formed in target tissue.If operation is without the need to cutting target tissue, then surgeon can discharge percussion trigger 130 subsequently, to allow that anvil block 620 moves to open position (under the bias movement from spring 617), thus discharges implantable nail bin 630 from end effector 612.Subsequently, surgeon can also pass through the pressure along contrary direction turn pump shank 892 in release lock capsule 884 by closed ends executor jaw 613,615 again.Can adopt promptly apparatus movable chain link 872 is regulated and controled to co-axially align substantially orientation (Figure 67) or enable device be withdrawn from other direction of expectation in patient body.But if surgeon wants to cut the target tissue between staple line 632, then surgeon advances trigger 200 to pull the trigger knife assembly 640 by operating cutter in the above described manner, distally to drive cutter component 648 through target tissue.Along with cutter component 648 distally moves through end effector 612, cutter component 648 can contact staple and drive sledge 650, this staple drives sledge to be used for driving further staple 632 to contact to make it form with the staple forming face 622 of anvil block 620, thus staple 632 is shaped further.Subsequently, surgeon can open end effector 612 to discharge target tissue and the implantable nail bin 630 of cutting/stitching from end effector 612.

The various embodiments comprising reconfigurable axle section disclosed herein greatly improve and adopt the traditional of lockable articulated joint can hinged surgical instruments structure.The placement of end effector at crosscut position of this surgical instruments is limited to 1 or 2 degree of freedom usually.Various embodiment of the present invention makes the possible position scope of end effector wider and therefore makes surgeon having greater flexibility by during single entrance operative installations.

The uniqueness of various surgery nail bin of the present invention and surgical instruments and novel structure enables the staple in described nail bin be arranged in one or more linear or nonlinear line.Every side of elongated slot can be provided with many this staple lines, described elongated slot is medially arranged in nail bin, organizes cutting element for holding through described elongated slot.In a kind of arrangement mode, staple such as into a line can be substantially parallel to the staple that is arranged in adjacent staple line but depart from it.In further embodiments, one or more staple line can be essentially nonlinear.In other words, the base portion of at least one staple in staple line can along substantially with the Axis Extension of the base portion crosscut of other staple in same staple line.Such as, as hereafter discussed in more detail, in alternative embodiment, the staple line on every side of elongated slot can have sawtooth appearance.The feasible reason of this nonlinear staple arrangement mode is, staple is not driven upwardly in anvil block.On the contrary, in these various embodiments, anvil block forms with the end of the staple of not moving and contacts.Be driven upwardly with wherein staple is actual with compared with forming in the nail bin of the prior art of contact with anvil block the various linear staple arrangement mode that adopts, this nonlinear staple arrangement mode can use less staple to obtain and better organize tightening results.

Figure 69 illustrates the use of the surgery nail bin embodiment 900 in end effector embodiment 612 ' of the present invention.End effector 612 ' can above-mentioned various mode be combined with surgical instruments 610.Except the following stated difference, end effector 612 ' can be identical with above-mentioned end effector 612.As found out in Figure 69 and Figure 70, the embodiment of surgery nail bin 900 has warehouse 902, and this warehouse has the elongated slot 904 arranged placed in the middle, and this elongated slot extends to the region adjacent with far-end 605 through near-end 903.Elongated slot 904 can allow during carrying out tissue cutting actions in the above described manner that the cutter body 646 of surgical instruments 610 axially moves through elongated slot 904.In at least one embodiment, warehouse 902 is by such as oxidized regenerated cellulose (ORC) or such as by PGA(polyglycolic acid, sell with trade mark Vicryl), PCL(polycaprolactone), PLA or PLLA(polylactic acid), PDS(PPDO), PHA(polyhydroxyalkanoatefrom), PGCL(poliglecaprone 25, sell with trade mark Monocryl) or PGA, PCL, what the complex of PLA and PDS processed can the compressible hemostatic material composition such as foam of bio-absorbable, the line 920 that unshaped staple 922 is formed is supported with in described compressible hemostatic material, 930.But, warehouse 902 also can by for unfashioned staple 922 is supported on to expect in orientation to make anvil block 910 contact with the staple 922 of shaping time unfashioned staple 922 can be formed by other materials processing compressed.The same with above-mentioned other embodiment various, nail bin 900 is implantable and is left after suture operation completes and is attached to the tissue be sewn.In at least certain embodiments, for preventing the influenced and hemostatic material of staple 922 from being activated during introducing and position fixing process, whole storehouse 900 can be coated with or be wrapped in biodegradable film 906, such as, with trade mark the six cyclic ketones films sold or polyglycerol sebacate (PGS) film or such as by PGA(polyglycolic acid, sell with trade mark Vicryl), PCL(polycaprolactone), PLA or PLLA(polylactic acid), PHA(polyhydroxyalkanoatefrom), PGCL(poliglecaprone 25, sell with trade mark Monocryl) or the film that formed of the complex of PGA, PCL, PLA, PDS, described film is only just permeable when breaking.The size of the warehouse 902 of nail bin 900 is set to and is supported on removedly in the elongated passageway 614 of end effector 612 '.

In the embodiment shown in Figure 69, Figure 73 and Figure 74, surgery nail bin 900 operationally supports the First Line 920 that staple 922 is formed on elongated slot 904 cross side 907, and on another cross side 909 of elongated slot 904, support the second line 930 of staple 922 formation.In various embodiments, staple 922 can be processed by such as titanium, titanium alloy (such as 6Al-4V titanium, 3al-2.5V titanium), stainless steel and other metal materials and have staple basis 924 and from two of staple basis 924 projection upright staple lower limbs 926.Each staple lower limb 926 can be formed with tissue-piercing tips 928.In the First Line 920 that staple 922 is formed, the staple basis 924 of at least one staple 922 and the staple basis bracing of another staple 922.In a preferred embodiment, except the base portion 924 of the last staple 922 be positioned on first each end of staple line 920, staple basis 924 bracing of all adjacent with two staple 922 of staple basis 924 of each staple 922.See Figure 73.Therefore, the first staple line 920 has nonlinear shape substantially.More particularly, when viewed from above, the first staple line 920 has zigzag outward appearance substantially.

As found out in Figure 72, anvil block 90 has two longitudinal staple formation pits 912 in succession formed, each longitudinal staple formation pit 912 has the substantially zigzag shape corresponding with the shape of the First Line 920 that staple 922 is formed, make when anvil block 910 and staple 922 form contact time, the leg 926 of staple 922 is shaped as shown in Figure 74.Therefore, the distally leg of a staple shares same pit with the proximal leg of next staple in the vertical.This structure can form more intensive pit pattern, even reaches staple self and to carry out interacting the degree of (such as stride across each other and fold).In the staple bowl configurations of prior art, in general, one group of pit and next organize the metal/space that must to have between pit between 0.005 inch to 0.015 inch.But such as this type of embodiment of the present invention has the interference/bracing spacer structure of 0 to 0.02 inch (in essence, a-0.020 "), this is because a staple coordinates with next staple.This structure makes it possible to comprise in identical space the staple having more 15% to 30%.In addition, when each staple interlocking, the demand of multiple side direction staple row is reduced.Existing structure adopts three row's staples usually on every side of organizing line of cut, to prevent from existing the open approach that blood can flow through.The probability that interlocking staple line forms the path that blood can flow through is less.Another obvious advantage that various interlocking staple structure of the present invention provides relates to the improvement " rupture strength " relevant to the size of tearing power needed for staple line opening.

Another staple formation bowl configurations of the present invention can comprise shared staple formation pit.As used herein, term " shared staple formation pit " refers to, to arrange the independent anvil design forming the prior art of pit different from each leg wherein for each preform staple, and shaping pit can make all staple formation in single staple line.

Figure 75 illustrates another staple embodiment 922 ', and wherein base portion 924 ' has offset portion 928, is beneficial to each base portion 924 ' and carries out bracing more closely.As mentioned above, nail bin 900 has the second line 930 of the staple 922 be supported on the second horizontal side 909 of elongated slot 904.Second line 930 of staple 922 is substantially the same with the First Line 920 of staple 922.Therefore, anvil block 910 have corresponding to the second staple line 930 second share staple formation pit 912, with the second staple line 930 shaping contact.But in alternative embodiment, the second line 930 of staple 922 also can may be different from the first staple line 920 in shape on staple number.

Figure 71 illustrates surgery nail bin 900 ', and except the line 920 ', 930 ' that the staple 922 be supported on wherein is formed, surgery nail bin 900 ' is substantially the same with above-mentioned nail bin 900.Such as, in this embodiment, the base portion axis S-S of the line 920 ' of the staple 922 base portion axis S-S staple basis 924 of at least one another adjacent staple 922 of crosscut substantially that is relative to each other configured to make at least one staple basis 924.When viewed from above, this predetermined staple pattern comprises zigzag arrangement substantially.In the embodiment shown in Figure 76, each base portion 924 of staple 922 can there is base support member 927 by overmolding in addition, as shown in the figure.In various embodiments, base support member 927 can by the plastics of such as nonabsorable (such as polyether-ether-ketone " PEEK ") or absorbable plastics (such as polyglycolic acid " PGA ", polylactic acid " PLA " or " PLLA ", PPDO " PDS ", PCL(polycaprolactone), PHA(polyhydroxyalkanoatefrom), PGCL(poliglecaprone 25, sell with trade mark Monocryl) or the various compound mixtures of PGS, PDS, PLA, PGA and PCL) process.Base support member 927 is conducive to making when not making staple self bracing to interlock between each staple.Therefore, this structure can make staple formation be " B " shape or " W " shape of falling when not making the leg bracing of staple self.But because bizet is connected by base support member, therefore bizet works as the staple of bracing.This structure allows that the pit combined has two independently paths for each leg.

Embodiment shown in Figure 77 adopts staple line 920 ", at staple line 920 " in, the leg 926 of adjacent staple 922 is linked together by the coupling portion 929 being attached to leg 926 with molded or alternate manner.Each coupling portion 929 can by such as polyether-ether-ketone " PEEK " or absorbable plastics (such as polyglycolic acid " PGA ", polylactic acid " PLA " or " PLLA ", PPDO " PDS ", PCL(polycaprolactone), PHA(polyhydroxyalkanoatefrom), PGCL(poliglecaprone 25, sell with trade mark Monocryl) or the various compound mixtures of PGS, PDS, PLA, PGA and PCL) process.When viewed from above, this staple line 920 " there is zigzag outward appearance substantially.Although in conjunction with making for explaining various surgical staple embodiment 900,900 ' together with end effector 612 ' and surgery suturing appliance 610, but be to be understood that, nail bin 900,900 ' can use effectively together with other end effector various mentioned above and surgical instruments, suitable staple formation pit is provided with, to reach the staple formation amount of expectation when anvil block moves to and forms contact with staple in the anvil block of wherein these apparatuses.

Figure 78 and 79 illustrates another surgery nail bin 940 embodiment in the elongated passageway 14 being supported on surgical instruments 10 of the present invention.In at least one embodiment, surgery nail bin 940 comprises warehouse 942, and this warehouse has the elongated slot 944 arranged placed in the middle, and this elongated slot extends through warehouse 942 at least in part.Elongated slot 944 can allow during carrying out tissue cutting actions in the above described manner that the cutter body of surgical instruments 10 axially moves through elongated slot 944.In various embodiments, warehouse 942 can the compressible hemostatic material such as foam of bio-absorbable form by the such as above-mentioned or following type of oxidized regenerated cellulose (ORC), in described hemostatic material, be supported with the line 946,948,950 and 952 that unshaped staple 922 is formed.In at least certain embodiments, for prevent staple 922 influenced and hemostatic material introducing and position fixing process during activated, whole storehouse 940 can be coated with or be wrapped in biodegradable film 954, such as, with trade mark the six cyclic ketones films sold or polyglycerol sebacate (PGS) film or such as by PGA(polyglycolic acid, sell with trade mark Vicryl), PCL(polycaprolactone), PLA or PLLA(polylactic acid), PHA(polyhydroxyalkanoatefrom), PGCL(poliglecaprone 25, sell with trade mark Monocryl) or the film that formed of the complex of PGA, PCL, PLA, PDS, described film is only just permeable when breaking.

In the embodiment shown in Figure 78, storehouse 940 also comprises the storehouse supporting member 960 being connected to warehouse 942.In various embodiments, the rigid metals such as any alloy that storehouse supporting member 960 can be formed by such as titanium, rustless steel, aluminum, above-mentioned material process, and can partly embed in warehouse 942.In various embodiments, storehouse supporting member 960 can be held in place by such as film 954.In other embodiments needing restricted combination, can sporadically use cyanoacrylate adhesive by two elements " gummed " together.In further embodiments, warehouse 942 can be heated also " welding " or " melting " to storehouse supporting member 960.In various embodiments, storehouse supporting member 960 formed the lower surface of warehouse 942 at least partially to coordinate with elongated passageway 14.In a preferred embodiment, storehouse supporting member 960 has the one or more snap arrangement 962 from its projection, for releasedly storehouse supporting member 960 being connected to elongated passageway 14.Can adopt the snap arrangement/fastener constructions of other form that storehouse supporting member 960 is connected to elongated passageway 14 releasedly.

In various embodiments, storehouse supporting member 960 is formed with a series of support ridge 964,966,968,970,972,974 and 976, to provide cross-brace to a certain degree to the base portion 924 of the staple 922 in staple line 946,948,950 and 952.Therefore, at least certain embodiments, support ridge and staple line are substantially coextensive.Figure 80 illustrates alternative nail bin embodiment 940 ', nail bin embodiment 940 ' is substantially the same with storehouse 940, difference is, nail bin embodiment 940 ' comprise respectively from support ridge 964,966,968,970,972 and 976 projection to provide the upstanding fins portion 978,979,980,981,982 and 983 of extra lateral support to staple 922.In various embodiments, fin part can form as one with storehouse supporting member 960, and it highly can be about 1/2 or following of storehouse height.Therefore, in a preferred embodiment, such as any rising structure for supporting foam all cannot extend to more than the solid height of foam.Therefore, if storehouse be designed to such as by percussion time be compressed to 1/3 of its original height, then fin by uncompressed height 66% on the way down to uncompressed height 10% between.

In use, once staple 922 is shaped by contacting anvil block 20 in the above described manner, then anvil block 20 is opened and end effector 12 be pulled away from the tissue through sewing up.When end effector 12 is pulled away from through sew up organize time, warehouse 942 keeps the tissue that is fastened to through sewing up and is separated with keeping the storehouse supporting member 960 being connected to elongated passageway 14 subsequently.In various embodiments, the color of storehouse supporting member 960 is different from the color of the material comprising warehouse 942 and the color of elongated passageway 14.This surgeon of being arranged as provides in end effector the instruction that can easily identify that there is not nail bin.Therefore, surgeon can not by mistake attempt again to insert/use end effector when not installing new nail bin in end effector.For this reason, surgeon only needs the snap arrangement of storehouse supporting member 960 to depart from from elongated passageway 14, can be placed in elongated passageway 14 to make the storehouse supporting member 960 of new nail bin 940.Although explain nail bin 940,940 ' in conjunction with surgical instruments 10, but should be appreciated that under the condition not deviating from the spirit and scope of the invention, these storehouses can use effectively together with other surgical instruments embodiments many disclosed herein.

Figure 81 and 82 illustrates the use of surgical instruments embodiment 10 in conjunction with end effector 990, except being movably connected to elongated passageway 14 or being in other words supported on except the closed-lock device 991 in elongated passageway 14, end effector 990 is substantially the same with above-mentioned end effector 12.In various embodiments, closed-lock device 991 comprises the lock arm 992 with far-end 993 and near-end 994.Lock arm 992 pivotally component or lug 995 is connected to elongated passageway pivotally.Distal portions has the sheet spring 996 that is attached to distal portions or other biasing member lock arm 992 to be biased to actuating or latched position; In actuating or latched position, the far-end 141 that near-end 994 engages the first percussion lining ring 141 is distally advanced into " percussion " position to prevent the first percussion lining ring 140.But when being provided with nail bin 30 in elongated passageway 14, nail bin 30 can make lock arm 992 move in deactivated or non-locked position, percussion lining ring 140 is made can be distally advanced beyond lock arm 992, to complete staple percussion process.See Figure 81.

When in locking position, pull the trigger lining ring 140 cannot distally be pushed into and complete percussion process.In addition, percussion trigger 130 cannot be advanced into complete firing position, and in complete firing position, cutter securing rod 210 moves to unlocked position, thus enables surgeon that knife bar 172 is advanced.Therefore, when there is not storehouse in end effector 990, closed-lock device 991 is in latched position, and this finally can prevent knife bar 172 from advancing.Therefore, unless there is storehouse 30 in end effector 990, otherwise surgeon cannot make knife bar 172 propelling cut and organize.Should be appreciated that under the condition not deviating from the spirit and scope of the invention, above-mentioned closed-lock device 991 can be incorporated in many surgical instruments embodiments disclosed herein effectively.

In various embodiments, nail bin can comprise warehouse and be stored in the multiple staples in warehouse.In use, nail bin can be introduced in operative site and to be located on the side of handled tissue.In addition, staple formation anvil block can be positioned on the opposite side of tissue.In various embodiments, anvil block can be carried by the first jaw and nail bin can be carried by the second jaw, and wherein the first jaw and/or the second jaw can move towards another jaw.Once nail bin and anvil block are located relative to tissue, then can penetrate staple from staple cartridge body, make staple can piercing tissue contact staple formation anvil block.Once dispose staple from staple cartridge body, then can remove staple cartridge body from operative site.In various embodiment disclosed herein, nail bin or nail bin at least partially in implantablely have staple.In at least one this type of embodiment, describe in more detail as following, nail bin can comprise warehouse, and when anvil block moves to make position from open position, described warehouse by described anvil block compression, conquassation and/or can be collapsed.When warehouse compressed, conquassation and/or collapse time, the staple being arranged in warehouse is out of shape by anvil block.Alternatively, the jaw for supporting nail bin can move to make position towards anvil block.Two kinds of situations any one in, in various embodiments, when staple is positioned at warehouse at least in part, staple can be deformed.In certain embodiments, staple can not be penetrated from nail bin, and in certain embodiments, staple can be penetrated together with a part for warehouse from nail bin.

Referring now to Figure 83 A-83D, compressible nail bin (such as nail bin 1000) such as can comprise compressible, implantable warehouse 1010, in addition, the multiple staples 1020 being arranged in compressible warehouse 1010 are illustrated in Figure 83 A-83D (but figure only illustrates a staple 1020).Figure 83 A illustrates the nail bin 1000 supported by nail bin support member or nail bin path 10 30, and wherein nail bin 1000 is illustrated and is in uncompressed state.In this uncompressed state, anvil block 1040 can contact or not contact tissue T.In use, anvil block 1040 can move to contact tissue T(as shown in Figure 83 B from open position) and tissue T against the position of warehouse 1010.Even if tissue T can be positioned to the tissue contacting surface 1019 against staple cartridge body 1010 by anvil block 1040, but refer again to Figure 83 B, staple cartridge body 1010 can be subject to little (if any) compression stress or pressure, makes staple 1020 can remain on unshaped or non-cock.As shown in Figure 83 A and Figure 83 B, staple cartridge body 1010 can comprise one or more layer, and the staple lower limb 1021 of staple 1020 upwards can extend through these layers.In various embodiments, warehouse 1010 can comprise ground floor 1011, the second layer 1012, third layer 1013 and the 4th layer 1014, wherein the second layer 1012 can be positioned between ground floor 1011 and third layer 1013, and wherein third layer 1013 can be positioned between the second layer 1012 and the 4th layer 1014.In at least one embodiment, the base portion 1022 of such as staple 1020 can be positioned in the chamber 1015 in the 4th layer 1014, and staple lower limb 1021 upwards can extend from base portion 1022 and pass the 4th layer 1014, third layer 1013 and the second layer 1012.In various embodiments, each deformable leg 1021 can comprise end, such as sharp end 1023, and such as, when nail bin 1000 is in uncompressed state, sharp end 1023 such as can be positioned in the second layer 1012.In at least one this type of embodiment, end 1023 can not extend to and/or through ground floor 1011, wherein at least one embodiment, when nail bin 1000 is in uncompressed state, end 1023 can be not projecting through tissue contacting surface 1019.In certain embodiments, when nail bin is in uncompressed state, sharp end 1023 can be positioned in third layer 1013 and/or other suitable layer any.In various alternative embodiment, the warehouse of nail bin can have any fitness number target zone, such as, be less than four layers or more than four layers.

In various embodiments, describe in more detail as following, ground floor 1011 can be made up of backing material and/or plastic material (such as PPDO (PDS) and/or polyglycolic acid (PGA)), and the second layer 1012 can by can the foamed materials of bio-absorbable and/or compressible hemostatic material (such as oxidized regenerated cellulose (ORC)) form.In various embodiments, staple 1020 can remain in staple cartridge body 1010 by one or more in ground floor 1011, the second layer 1012, third layer 1013 and the 4th layer 1014, and staple 1020 can be made in addition to keep mutual alignment.In various embodiments, third layer 1013 can comprise backing material or quite incompressible or non-elastic material, and the staple lower limb 1021 of staple 1020 can relative to each other be held in place by described material.In addition the second layer 1012 and the 4th layer 1014, be positioned at the second layer 1012 on the relative both sides of third layer 1013 and the 4th layer of 1014 Absorbable organic halogens or reduce the motion of staple 1020, even if can comprise compressible foam or elastomeric material.In certain embodiments, the staple end 1023 of staple lower limb 1021 can embed in ground floor 1011 at least in part.In at least one this type of embodiment, ground floor 1011 and third layer 1013 can collaboratively and be firmly held in place by staple lower limb 1021.In at least one embodiment, ground floor 1011 and third layer 1013 can comprise respectively can bioabsorbable material (such as with trade name Vicryl sell polyglycolic acid (PGA), polylactic acid (PLA, PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), poliglecaprone 25(PGCL so that trade name Monocryl sells), polycaprolactone (PCL), and/or PGA, PLA, PDS, PHA, PGCL, and/or the complex of PCL) thin slice that formed, and the second layer 1012 and the 4th layer 1014 can comprise at least one hemostatic material or agent respectively.

Although ground floor 1011 can be compressible, but the second layer 1012 can be substantially more compressible than ground floor 1011.Such as, the compressibility of the second layer 1012 can be ground floor 1011 about twice, about three times, about four times, about five times and/or about ten times.In other words, for given power, the compression degree of the second layer 1012 can be the about twice of ground floor 1011, about three times, about four times, about five times and/or about ten times.In certain embodiments, the compressibility of the second layer 1012 can between the about twice of ground floor 1011 and about ten times.In at least one embodiment, can be limited with multiple air gap in the second layer 1012, the amount of the air gap wherein in the second layer 1012 and/or size can be controlled to provide the expectation of the second layer 1012 to compress.To similar above, although third layer 1013 can be compressible, but the 4th layer 1014 can have more compressibility substantially than third layer 1013.Such as, the compressibility of the 4th layer 1014 can be third layer 1013 about twice, about three times, about four times, about five times and/or about ten times.In other words, for given power, the compression degree of the 4th layer 1014 can be third layer 1013 about twice, about three times, about four times, about five times and/or about ten times.In certain embodiments, the compressibility of the 4th layer 1014 can between the about twice of third layer 1013 and about ten times.In at least one embodiment, can be limited with multiple air gap in the 4th layer 1014, amount and/or the size of the air gap wherein in the 4th layer 1014 can be controlled to provide the expectation of the 4th layer 1014 to compress.In various scenarios, the compressibility of warehouse or warehouse layer is expressed by compression ratio (that is, layer is for the distance of compressing to the power of sizing).Such as, compared with the layer had compared with little compressible, the layer with high compression rate for be applied to this layer to the compression stress of sizing by distance larger for compression.So, the comparable ground floor of the second layer 1,012 1011 has higher compression ratio; Similarly, the 4th layer of 1014 comparable third layer 1013 has higher compression ratio.In various embodiments, the second layer 1012 and the 4th layer 1014 can comprise identical material and can have identical compression ratio.In various embodiments, the second layer 1012 and the 4th layer 1014 can comprise the material with different compression ratio.Similarly, ground floor 1011 and third layer 1013 can comprise identical material and can have identical compression ratio.In certain embodiments, ground floor 1011 and third layer 1013 can comprise the material with different compression ratio.

When anvil block 1040 moves towards its make position, anvil block 1040 can contact tissue T apply compression stress, as shown in Figure 83 C to tissue T and nail bin 1000.In this case, anvil block 1040 can promote end face or the tissue contacting surface 1019 of warehouse 1010 downwards towards nail bin support member 1030.In various embodiments, nail bin support member 1030 can comprise storehouse stayed surface 1031, and storehouse stayed surface 1031 can be worked as when nail bin 1000 is compressed between the tissue contacting surface 1041 of storehouse stayed surface 1031 and anvil block 1040 and supported nail bin 1000.Due to anvil block 1040 applied pressures, warehouse 1010 can be compressed and anvil block 1040 can contact staple 1020.More particularly, in various embodiments, the compression of warehouse 1010 and the downward motion of tissue contacting surface 1019 can make the end 1023 of staple lower limb 1021 pierce through the ground floor 1011 of warehouse 1010, piercing tissue T entering in the shaping pit 1042 in anvil block 1040.When warehouse 1010 is compressed further by anvil block 1040, end 1023 can contact the wall limiting shaping pit 1042, and therefore leg 1021 can to internal strain or curling, such as, shown in Figure 83 C.When staple lower limb 1021 is deformed, equally as shown in Figure 83 C, the base portion 1022 of staple 1020 can contact nail bin support member 1030 or be supported by nail bin support member 1030.In various embodiments, as will be described in more detail, nail bin support member 1030 can comprise multiple supporting construction, such as staple support trenches, slit or groove 1032, and described multiple supporting construction can work as the base portion 1022 supporting staple 1020 or at least staple 1020 when staple 1020 is deformed.Same as shown in Figure 83 C, the compression stress being applied to staple cartridge body 1010 can make the chamber 1015 in the 4th layer 1014 collapse.Except chamber 1015, staple cartridge body 1010 also can comprise one or more space (such as space 1016), such as, can be positioned with in described one or more space or no-fix has the part of staple, and described one or more space can allow warehouse 1010 to collapse.In various embodiments, can collapse in chamber 1015 and/or space 1016, bend downwards to make the wall in restriction chamber and/or space and contact storehouse stayed surface 1031 and/or contact warehouse 1010 the layer be positioned at below chamber and/or space.

When comparison diagram 83B and Figure 83 C, obviously, the second layer 1012 and the 4th layer 1014 compression pressure that applies by anvil block 1040 substantially compress.Also can note, ground floor 1011 and third layer 1013 are also compressed.When anvil block 1040 moves to its make position, anvil block 1040 continues compression warehouse 1010 further by promoting tissue contacting surface 1019 downwards towards nail bin support member 1030.When warehouse 1010 is further compressed, anvil block 1040 can make staple 1020 be deformed into its complete shaping form (as shown in Figure 83 D).See Figure 83 D, the leg 1021 of each staple 1020 can be out of shape downwards towards the base portion 1022 of each staple 1020, a part for tissue T, ground floor 1011, the second layer 1012, third layer 1013 and the 4th layer 1014 to be captured between deformable leg 1021 and base portion 1022.When comparison diagram 83C and Figure 83 D, the more obvious second layer 1012 and the 4th layer 1014 further the compression pressure that applies by anvil block 1040 significantly compress.Also can note when comparison diagram 83C and Figure 83 D, ground floor 1011 and third layer 1013 are also further compressed.After staple 1020 is shaped completely or at least fully, anvil block 1040 can be lifted away from tissue T, and nail bin support member 1030 can away from and/or depart from nail bin 1000 and move.As shown in Figure 83 D, as result above, warehouse 1010 is implantable staple 1020.In various embodiments, implanted warehouse 1010 can along staple line supporting tissue.In some cases, the hemorrhage held in implanted warehouse 1010 and/or other suitable medicine any can process tissue along with the time.Hemorrhage as above can reduce sew up and/or cut organize hemorrhage, simultaneously bonding agent or tissue adhesive can along with the carrying out of time for tissue provide intensity.The warehouse 1010 implanted can comprise such as ORC(oxidized regenerated cellulose), albumen substrate, the polyglycolic acid (PGA) sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL that sells with trade name Monocryl), the material such as the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL.In some cases, warehouse 1010 can comprise antibiosis and/or the anti-biotic material of the probability that can reduce surgical site infection, such as collargol and/or triclosan.

In various embodiments, each layer of warehouse 1010 can be interconnected.In at least one embodiment, can utilize at least one binding agent (such as fibrin and/or protein hydrogel) that the second layer 1012 is adhered to ground floor 1011, third layer 1013 is adhered to the second layer 1012, and adheres to third layer 1013 by the 4th layer 1014.In certain embodiments, although not shown, but each layer of warehouse 1010 by interlocked mechanical anatomical connectivity together.In at least one this type of embodiment, ground floor 1011 and the second layer 1012 can comprise corresponding interlocking structure separately, such as tenon groove structure and/or dovetail structure.Similarly, the second layer 1012 and third layer 1013 can comprise corresponding interlocking structure separately, and simultaneously third layer 1013 and the 4th layer 1014 can comprise corresponding interlocking structure separately.In certain embodiments, although not shown, but nail bin 1000 can such as comprise one or more rivet, and described one or more rivet can extend across one or more layers of warehouse 1010.In at least one this type of embodiment, each rivet can comprise the second head of first end or head that adjacent first layer 1011 locates and contiguous 4th layer 1014 and location, and described 4th layer can be assembled into the second end of rivet or be formed by the second end of rivet.Due to the compressible character of warehouse 1010, at least one embodiment, the compressible warehouse 1010 of such as rivet, can cave in relative to the tissue contacting surface 1019 of warehouse 1010 and/or lower surface 1018 to make the head of rivet.In at least one this type of embodiment, each rivet can comprise the polyglycolic acid (PGA), polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL that sells with trade name Monocryl that such as sell with trade name Vicryl), the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL etc. can the material of bio-absorbable.In certain embodiments, except the staple 1020 by holding in warehouse 1010, each layer of warehouse 1010 can not be interconnected.In at least one this type of embodiment, each layer of warehouse 1010 such as can keep together by the frictional engagement between staple lower limb 1021 and warehouse 1010, and once staple formation, then each layer can be trapped in staple 1020.In certain embodiments, roughened surface or the rough coatings that can comprise the frictional force that can increase between staple 1020 and warehouse 1010 at least partially of staple lower limb 1021.

As mentioned above, surgical instruments can comprise the first jaw and the second jaw, and the first jaw comprises nail bin support member 1030, second jaw and comprises anvil block 1040.In various embodiments, as explained in more detail below, nail bin 1000 can comprise one or more reservation structure, and described one or more reservation structure can engage nail bin support member 1030 and therefore nail bin 1000 be remained to nail bin support member 1030 releasedly.In certain embodiments, by least one binding agent (such as, fibrin and/or protein hydrogel), nail bin 1000 is adhered to nail bin support member 1030.In use, in at least one situation, especially in abdominal cavity mirror and/or endoscopic procedure, such as the second jaw is moveable to the make position relative with the first jaw, and the first jaw and the second jaw are inserted in operative site by the trocar.In at least one this type of embodiment, the trocar can limit hole or the intubate of about 5mm, and the first jaw and the second jaw are inserted into by described hole or intubate.In certain embodiments, second jaw is moveable to the partial closed position between in an open position and make position, described partial closed position tolerable first jaw and the second jaw are inserted into through the trocar, and without the need to making the staple 1020 held in staple cartridge body 1010 be out of shape.In at least one this type of embodiment, when the second jaw is in the closed centre position of its part, anvil block 1040 can not apply compression stress to staple cartridge body 1010, and in some other embodiment, when the second jaw is in the closed centre position of its part, the compressible staple cartridge body 1010 of anvil block 1040.Although the compressible staple cartridge body 1010 when anvil block 1040 is in this centre position, but anvil block 1040 can compress staple cartridge body 1010 by halves, contacts staple 1020 and/or staple 1020 is out of shape by anvil block 1040 to make anvil block 1040.Once the first jaw and the second jaw are inserted into by the trocar in operative site, then the second jaw can be opened again, and anvil block 1040 and nail bin 1000 can position relative to target tissue as mentioned above.

Referring now to Figure 84 A-84D, in various embodiments, the end effector of surgical stapling device can comprise the implantable nail bin 1100 between anvil block 1140 and nail bin support member 1130.To similar above, anvil block 1140 can comprise tissue contacting surface 1141, and nail bin 1100 can comprise tissue contacting surface 1119, and nail bin support member 1130 can comprise the stayed surface 1131 that can support nail bin 1100.See Figure 84 A, anvil block 1140 can be utilized tissue T to be positioned to make it not make nail bin 1100 be out of shape against the tissue contacting surface 1119 of nail bin 1100, and when anvil block 1140 is in this position, tissue contacting surface 1141 can be oriented to and nail bin stayed surface 1131 distance 1101a, and tissue contacting surface 1119 can be oriented to and nail bin stayed surface 1131 distance 1102a.Subsequently, referring now to Figure 84 B, when anvil block 1140 moves towards nail bin support member 1130, anvil block 1140 can promote the end face of nail bin 1100 or tissue contacting surface 1119 downwards and compress ground floor 1111 and the second layer 1112 of warehouse 1110.Refer again to Figure 84 B, when layer 1111 and layer 1112 are by compression, the second layer 1112 can by conquassation, and the leg 1121 of staple 1120 can pierce through ground floor 1111 and enter tissue T.In at least one this type of embodiment, staple 1120 can be positioned in staple cavity in the second layer 1112 or space 1115 at least in part, and when the second layer 1112 is by compression, staple cavity 1115 can be collapsed and therefore be allowed that the second layer 1112 is collapsed around staple 1120.In various embodiments, the second layer 1112 can comprise covering part 1116, this covering part extensible on staple cavity 1115 and around or at least in part around staple cavity 1115.Figure 84 B illustrates the covering part 1116 being pressed downward and bursting in staple cavity 1115.In certain embodiments, the second layer 1112 can comprise one or more weakening part, and described one or more weakening part can be conducive to collapsing of the second layer 1112.In various embodiments, this weakening part can comprise such as can be conducive to warehouse 1110 carry out controlled collapse cut, perforation and/or thin cross section.In at least one embodiment, ground floor 1111 can comprise and can be conducive to one or more weakening parts that staple lower limb 1121 penetrates ground floor 1111.In various embodiments, this weakening part can comprise and such as can align with staple lower limb 1121 or at least cut of substantial alignment, perforation and/or thin cross section.

Refer again to Figure 84 A, when anvil block 1140 is in partly closed non-firing position, anvil block 1140 can be oriented to and storehouse stayed surface 1131 distance 1101a, makes to be limited with gap therebetween.This gap can be filled by the nail bin 1100 and tissue T with nail bin height 1102a.When anvil block 1140 moves downward to compress nail bin 1100, refer again to Figure 84 B, the distance between tissue contacting surface 1141 and storehouse stayed surface 1131 can be limited by the distance 1101b being shorter than distance 1101a.In various scenarios, the gap limited by distance 1101b between the tissue contacting surface 1141 of anvil block 1140 and storehouse stayed surface 1131 can be greater than original undeformed nail bin height 1102a.Referring now to Figure 84 C, when anvil block 1140 moves to closer to storehouse stayed surface 1131, the second layer 1112 can continue to collapse and distance between staple lower limb 1121 and shaping pit 1142 can reduce.Similarly, the distance between tissue contacting surface 1141 and storehouse stayed surface 1131 can be decreased to distance 1101c, and in various embodiments, distance 1101c can be greater than, equals or be less than and original is not out of shape storehouse height 1102a.Referring now to Figure 84 D, anvil block 1140 is moveable to final firing position, and in final firing position, staple 1120 is shaped completely or is at least shaped to Desired Height.In this position, the tissue contacting surface 1141 of anvil block 1140 can with storehouse stayed surface 1131 distance 1101d, wherein distance 1101d can be shorter than and original not be out of shape storehouse height 1102a.Same as shown in Figure 84 D, staple cavity 1115 can be collapsed completely or at least substantially, and staple 1120 can completely or at least substantially by the second layer 1112 of collapsing around.In various scenarios, anvil block 1140 can move away from nail bin 1100 subsequently.Once anvil block 1140 departs from from nail bin 1100, then warehouse 1110 can such as be stretched in various position (that is, the position between adjacent staple 1120) at least in part again.In at least one embodiment, the warehouse 1110 of conquassation may not stretch again with elastic type.In various embodiments, the staple 1120 of shaping and the warehouse 1110 in addition between adjacent staple 1120 can apply pressure or compression stress to tissue T, and this can provide various useful therapeutic effect.

As mentioned above, refer again to the embodiment shown in Figure 84 A, each staple 1120 can comprise the staple lower limb 1121 extended from it.Although staple 1120 is illustrated as comprising two staple lower limbs 1121, but also can utilize the various staples that can comprise a staple lower limb or alternately comprise more than two staple lower limbs (such as three staple lower limbs or four staple lower limbs).As shown in Figure 84 A, each staple lower limb 1121 all can embed in the second layer 1112 of warehouse 1110, and staple 1120 is fixed in the second layer 1112.In various embodiments, staple 1120 can be inserted in the staple cavity 1115 of warehouse 1110, makes end 1123 the advancing in chamber 1115 at base portion 1122 of staple lower limb 1121.In various embodiments, after end 1123 is inserted into chamber 1115, end 1123 can be pressed in covering part 1116 and to cut the second layer 1112.In various embodiments, staple 1120 can be sealed to the enough depths in the second layer 1112, makes staple 1120 not move relative to the second layer 1112 or at least substantially not move.In certain embodiments, staple 1120 can be sealed to the enough depths in the second layer 1112, makes base portion 1122 be located or embed in staple cavity 1115.In other embodiment various, base portion 1122 can not be located or be embedded in the second layer 1112.Refer again to Figure 84 A, in certain embodiments, base portion 1122 can extend below the lower surface 1118 of warehouse 1110.In certain embodiments, base portion 1122 can be bearing on storehouse stayed surface 1130 or directly and locate against storehouse stayed surface 1130.In various embodiments, storehouse stayed surface 1130 can comprise the supporting construction extending from it and/or be limited to wherein, wherein at least one this type of embodiment, the base portion 1122 of staple 1120 can be positioned in one or more support trenches, slit or the groove 1132 in such as nail bin support member 1130 or by described one or more support trenches, slit or groove 1132 and support, as described in more detail below.

To being described further above, referring now to Figure 85, the base portion 1122 of staple 1120 can directly against nail bin support member 1130 stayed surface 1131 and locate.In various embodiments, comprise wherein staple basis 1122 and comprise the embodiment on circle or domed bottom surface 1124, such as staple basis 1122 can move along nail bin stayed surface 1131 or slide.This slip can be there is when anvil block 1140 is compressed the end 1123 of staple lower limb 1121 during staple formation process.In certain embodiments, as mentioned above and referring now to Figure 86, can comprise one or more support slit 1132 in nail bin support member 1130, described one or more support slit can be eliminated or at least reduce the relative motion between staple basis 1122 and storehouse stayed surface 1131.In at least one this type of embodiment, each supports slit 1132 and all can be limited by surface profile, and described surface profile matches with the profile being arranged in the staple lower surface supporting slit 1132 or at least substantially matches.Such as, the lower surface 1124 of the base portion 1122 shown in Figure 86 can comprise circle or at least substantially circular surface, and supports slit 1132 and also can comprise circle or at least substantially circular surface.In at least one this type of embodiment, can be limited by the radius of curvature being more than or equal to the radius of curvature limiting lower surface 1124 for the surface limiting slit 1132.Although slit 1132 can help prevent or reduce the sliding relative movement between staple 1120 and nail bin support member 1130, but slit 1132 also can prevent or reduce the relative rotary motion between staple 1120 and nail bin support member 1130.More particularly, at least one embodiment, slit 1132 can closely hold base portion 1122, to prevent or to reduce the rotation of staple 1120 around axis 1129, such as, to make staple 1120 can not rotate or distortion when being deformed.

In various embodiments, further to being described above, each staple 1120 all can by circle or be at least essentially round wire rod and formed.In certain embodiments, the leg of each staple and base portion all can be formed by the wire rod with non-circular cross sections (such as rectangular cross section).In at least one this type of embodiment, nail bin support member 1130 can comprise corresponding non-circular slit (such as rectangular slot), and described non-circular slit can hold the base portion of this staple.Referring now to Figure 87, in various embodiments, each staple 1120 all can comprise overmolding to the such as bizet 1125 of the bizet 1125(on base portion 1122), wherein each bizet 1125 all can be positioned in the support slit in nail bin support member 1130.In at least one this type of embodiment, each bizet 1125 all can comprise such as square and/or the cross section of rectangle, and described cross section can be contained in the slit 1134 of square in such as nail bin support member 1130 and/or rectangle.In various embodiments, bizet 1125 can comprise can the plastics (polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL sold with trade name Monocryl) of bio-absorbable, the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL), and formed around the base portion 1122 of staple 1120 by such as injection molding method.Various bizet and be disclosed in the U.S. Patent Application Serial Number 11/541 that name that JIUYUE in 2006 files an application on the 29th is called " SURGICALSTAPLESHAVINGCOMPRESSIBLEORCRUSHABLEMEMBERSFORSE CURINGTISSUETHEREINANDSTAPLINGINSTRUMENTSFORDEPLOYINGTHE SAME ", in 123 for the formation of the method for various bizet.Refer again to Figure 87, slit 1134 also can comprise introduction part or oblique angle 1135, and this introduction part or oblique angle can be conducive to bizet 1125 to insert in slit 1134.In various embodiments, when nail bin 1100 is assembled to nail bin support member 1130, the base portion of staple 1120 and/or bizet can be positioned in slit 1134.In certain embodiments, when nail bin 1100 is assembled to nail bin support member 1130, the bizet 1125 of staple 1120 can align with slit 1134.In at least one this type of embodiment, bizet 1125 can not enter in slit 1134, until apply compression stress to staple lower limb 1121 and the base portion of staple 1120 and/or bizet are pushed down in slit 1134.

Referring now to Figure 88 and Figure 89, in various embodiments, nail bin (such as, nail bin 1200) can comprise compressible and implantable warehouse 1210, and warehouse 1210 comprises outer 1211 and internal layer 1212.To similar above, nail bin 1200 can comprise the multiple staples 1220 being positioned at warehouse 1210.In various embodiments, each staple 1220 all can comprise base portion 1222 and the one or more staple lower limbs 1221 from base portion 1222 extension.In at least one this type of embodiment, staple lower limb 1221 can to insert in internal layer 1212 and to be sealed to and such as make the lower surface 1218 of the adjacent and/or contiguous internal layer 1212 of base portion 1222 of staple 1220 locate.In the embodiment shown in Figure 88 and Figure 89, internal layer 1212 does not comprise the staple cavity of the part can holding staple 1220, and in other embodiments, internal layer 1212 can comprise this staple cavity.In various embodiments, to being described further above, internal layer 1212 can comprise the compressible material (such as can the foam of bio-absorbable and/or oxidized regenerated cellulose (ORC)) can allowed warehouse 1210 and collapse when being applied in compressive load.In various embodiments, internal layer 1212 can comprise the freeze dried foam such as comprising polylactic acid (PLA) and/or polyglycolic acid (PGA).ORC can trade name Surgicel commercially available and can comprise pine fabric (as surgical sponge), pine fiber (as cotton balls) and/or foam.In at least one embodiment, internal layer 1212 can by wherein to comprise and/or applied atop has the material of medicine (such as cryodesiccated thrombin and/or fibrin) to form, and described medicine such as can by the fluid water activation in patient body and/or activation.In at least one this type of embodiment, cryodesiccated thrombin and/or fibrin can remain on such as Vicryl(PGA) in substrate.Such as, but in some cases, when being inserted into when nail bin 1200 in the operative site in patient body, activable medicine can by mistake be activated.Refer again to Figure 88 and Figure 89, in various embodiments, outer 1211 can by water impervious or at least water substantially impermeable material form, do not contact to make liquid or at least substantially do not contact internal layer 1212, until warehouse 1210 compressed and staple lower limb penetrate outer 1211 after and/or outer 1211 be cut open in some way after.In various embodiments, outer 1211 can comprise backing material and/or plastic material (such as PPDO (PDS) and/or polyglycolic acid (PGA)).In certain embodiments, outer 1211 can comprise the wrappage around internal layer 1212 and staple 1220.More particularly, at least one embodiment, staple 1220 can be inserted in internal layer 1212 and outer 1211 and to be wrapped around the sub-component comprising internal layer 1212 and staple 1220 and to be sealed subsequently.

Referring now to Figure 90 and Figure 91, in various embodiments, nail bin (such as, nail bin 1300) can comprise compressible and implantable warehouse 1310, and warehouse 1310 comprises outer 1311 and internal layer 1312.To similar above, nail bin 1300 also can comprise the staple 1320 being positioned at warehouse 1310, and wherein each staple 1320 all can comprise base portion 1322 and the one or more legs 1321 from base portion 1322 extension.Be similar to nail bin 1200, the base portion 1322 of staple 1320 can extend below the lower surface 1318 of internal layer 1312, and outer 1311 can around base portion 1322.In at least one this type of embodiment, outer 1311 can have enough flexibility to surround each staple basis 1322, make skin 1311 conform to the profile of base portion 1322.Refer again to Figure 89, at least one alternative embodiment, outer 1211 can have enough rigidity, make it extend around base portion 1222 and not conform to each base portion 1222.In any case, in various embodiments, outer 1311 can be positioned in staple 1320 base portion 1322 and for support nail bin 1300 nail bin stayed surface (such as stayed surface 1031 or 1131) between.In at least one this type of embodiment, outer 1311 can be positioned in base portion 1322 and be limited between the support slit (such as slit 1032 or 1132) in nail bin stayed surface.In at least one this type of embodiment, to being described further above, outer 1311 can limit the motion of base portion 1322 and/or increase base portion 1322 and nail bin stayed surface and/or the coefficient of friction that supports between slit to reduce relative motion therebetween.Referring now to Figure 92 and Figure 93, in various alternative embodiment, the skin of nail bin (such as nail bin 1400) can by halves around the staple be positioned at wherein.In at least one this type of embodiment, before the staple lower limb 1421 of staple 1420 inserts in warehouse 1410, compressible and skin 1411 that is implantable warehouse 1410 can be assembled to internal layer 1412.As result above, the base portion 1422 of staple 1420 is extensible in the outside of outer 1411, and at least one this type of embodiment, such as base portion 1422 can directly be positioned in the support slit 1032 or 1132 in nail bin stayed surface 1031 or 1131.In various embodiments, when staple lower limb 1421 inserted through outer 1411 time, staple lower limb 1421 can cut outer 1411.In various scenarios, the hole formed by staple lower limb 1421 can closely around staple lower limb 1421, make the fluid leaking few (if present) between staple lower limb 1421 and outer 1411, this can reduce or prevent the medicine held in staple cartridge body 1410 from being activated and/or leaking out the probability of warehouse 1410 prematurely.

As mentioned above, refer again to Figure 88 and Figure 89, the leg 1221 of staple 1220 can embed in warehouse 1210, and the base portion 1222 of staple 1220 can stretch out from the lower surface 1218 of internal layer 1212.In various embodiments, to being described further above, internal layer 1212 can not comprise the staple cavity can holding staple 1220.Referring now to Figure 94 and Figure 95, in other embodiment various, nail bin (such as nail bin 1500) can comprise compressible and implantable warehouse 1510, and this warehouse comprises the staple cavity 1515 at least partially can holding staple 1520 wherein.In at least one this type of embodiment, the top of the staple lower limb 1521 of staple 1520 can embed in internal layer 1512, and the bottom of staple lower limb 1521 and base portion 1522 can be positioned in staple cavity 1515.In certain embodiments, base portion 1522 can be positioned in staple cavity 1515 completely, and in certain embodiments, base portion 1522 can extend at least in part below the lower surface 1518 of internal layer 1512.To similar above, outer 1511 can around internal layer 1512 and the staple 1520 being arranged in internal layer 1512.Referring now to Figure 96, in some other embodiment, nail bin 1600 can comprise the staple 1620 of the staple cavity 1615 being arranged in compressible and implantable warehouse 1610, wherein staple 1620 at least partially not by outer 1611 around.In at least one this type of embodiment, each staple 1620 all can comprise and embeds staple lower limb 1621 in internal layer 1612 at least in part and around outer 1611 outward extending base portions 1622.

Referring now to Figure 97 and Figure 98, in various embodiments, nail bin (such as, nail bin 1700) can comprise compressible and implantable warehouse 1710 and be positioned at multiple staples 1720 of warehouse 1710 at least in part.Warehouse 1710 can comprise skin 1711, internal layer 1712 and alignment matrix 1740, and staple 1720 can be alignd and/or be held in place in warehouse 1710 by this alignment matrix.In at least one embodiment, internal layer 1712 can comprise the depressed part 1741 that can hold alignment matrix 1740 wherein.In various embodiments, alignment matrix 1140 can be press-fitted in depressed part 1741 and/or in other words utilize at least one binding agent (such as, fibrin and/or protein hydrogel) to be fixed to internal layer 1712 aptly.In at least one embodiment, depressed part 1741 can make the lower surface 1742 of alignment matrix 1740 align with the lower surface 1718 of internal layer 1712 or at least substantial alignment.In certain embodiments, the lower surface 1742 of alignment matrix can cave in relative to the lower surface 1718 of the second layer 1712 and/or extend from lower surface 1718.In various embodiments, each staple 1720 all can comprise base portion 1722 and from base portion 1722 extend one or more legs 1721, wherein staple lower limb 1721 can extend across alignment matrix 1740 at least partially.Alignment matrix 1740 also can comprise the multiple hole and/or slit that such as extend through wherein, and described multiple hole and/or slit can hold staple lower limb 1721 wherein.In at least one this type of embodiment, each hole all can closely hold staple lower limb 1721, makes very little (if any) relative motion occurs between staple lower limb 1721 and the sidewall in hole.In certain embodiments, alignment matrix hole can not exclusively extend through alignment matrix 1740, and when staple lower limb 1721 is pushed through alignment matrix 1740, staple lower limb 1721 can need to cut alignment matrix 1740.

In certain embodiments, alignment matrix 1740 can be made up of the plastic body be molded, and at least one embodiment, the comparable internal layer of described molded plastic body 1712 and/or outer 1711 is harder or compressibility is lower.In at least one this type of embodiment, alignment matrix 1740 can comprise plastic material and/or other suitable material (such as PPDO (PDS) and/or polyglycolic acid (PGA)) any.In certain embodiments, alignment matrix 1740 can be assembled to internal layer 1712, and staple lower limb 1721 can embed in internal layer 1712 inserted through alignment matrix 1740 subsequently.In various embodiments, the lower surface 1742 of alignment matrix 1740 can comprise one or more grooves of the base portion 1722 that can hold staple 1720 at least in part, slit or groove.To similar above, outer 1711 can be placed on comprise internal layer 1712, alignment matrix 1740 and staple 1720 sub-component around.Alternatively, outer 1711 can be placed on comprise internal layer 1712 and alignment matrix 1740 sub-component around, wherein staple 1720 can subsequently inserted through outer 1711, alignment matrix 1740 and internal layer 1712.In arbitrary situation, as result above, staple 1720 can be held in place, until and/or be out of shape by anvil block in the above described manner in staple 1720 by internal layer 1712, alignment matrix 1740 and/or outer 1711.In at least one this type of embodiment, staple 1720 is held in place before being used in the implanted patient body of nail bin 1700 by alignment matrix 1740, and at the implanted tailing edge staple line fixing organization of nail bin 1700.In at least one embodiment, such as staple 1720 can be fixed in alignment matrix 1740 and not be embedded in internal layer 1712 and/or outer 1711.

Referring now to Figure 99-105, in various embodiments, by compressing internal layer 1812, staple (such as, staple 1820) being inserted in internal layer 1812 and assemble nail bin (such as, nail bin 1800) by outer 1811 wrapping inner layer 1812.Main see Figure 99, compressible internal layer 1812 is shown as including the multiple staple cavity 1815 be limited to wherein, however also can dream up as mentioned above wherein internal layer 1812 do not comprise other embodiment of staple cavity.Referring now to Figure 100, compressible internal layer 1812 can be positioned between transfer plate 1850 and gripper shoe 1860 and to be compressed between the compressive surfaces 1852 of transfer plate 1950 and the compressive surfaces 1862 of gripper shoe 1860.As illustrated in graph 100, the end face of internal layer 1812 and lower surface can be compressed toward each other, and in response to this, internal layer 1812 can laterally outwards expand.In certain embodiments, internal layer 1812 can be compressed into the At The Height of about 1/3rd of such as its original height, and the height that can have in its compressive state between such as about 0.06 " to about 0.08 " or thickness.Equally as illustrated in graph 100, transfer plate 1850 also can comprise the multiple staples (such as staple 1820) being positioned at multiple staple well 1853.In addition, transfer plate 1850 also can comprise multiple driver 1851, and staple 1820 can upwards be released outside staple well 1853 by described multiple driver.Referring now to Figure 101, driver 1851 can be utilized to be pushed by the staple lower limb 1821 of staple 1820 in the internal layer 1812 of compression and the internal layer 1812 making it pass compression.In various embodiments, driver 1851 can make when staple 1820 is fully deployed from the staple well 1853 of transfer plate 1850, and the end face of driver 1851 is oriented to flush with the compressive surfaces 1852 of transfer plate 1850 or at least almost flush.In certain embodiments, same as shown in Figure 101, gripper shoe 1860 can comprise multiple accommodation hole 1861, and described multiple accommodation hole 1861 can after staple lower limb 1821 be pushed through internal layer 1812, and accommodation hole 1861 holds the end of staple lower limb 1821 or at least staple lower limb 1821.Internal layer 1812 has been compressed in the embodiment of the At The Height being shorter than staple 1820 height wherein, it is required that accommodation hole 1861 or similar structures can be, therefore, when staple 1820 is penetrated completely from staple well 1853, staple lower limb 1821 can from the end face projection of the internal layer 1812 of compression.In some other embodiment, internal layer 1812 can be compressed into the At The Height higher than staple 1820 height, does not therefore need the accommodation hole 1861 in gripper shoe 1860.

Referring now to Figure 102, after staple 1820 is inserted in internal layer 1812, gripper shoe 1860 can be moved away from transfer plate 1850, to allow that internal layer 1812 reduces pressure.In this case, internal layer 1812 can extend to that it is original or at least close to original uncompressed height by elastic type again.When internal layer 1812 stretches again, the height of internal layer 1812 can increase to exceed staple 1820 height and the staple lower limb 1821 of staple 1820 no longer from the end face projection of internal layer 1812.In various scenarios, staple lower limb 1821 can be held in place by accommodation hole 1861, at least until gripper shoe 1860 has moved to enough far away and made leg 1821 no longer be positioned at accommodation hole 1861.In this case, accommodation hole 1861 can help the staple 1820 in internal layer 1812 to keep alignment relative when internal layer 1812 stretches again.In various scenarios, internal layer 1812 and the staple 1820 be positioned at wherein can comprise sub-component 1801, and referring now to Figure 103, sub-component 1801 can such as be inserted in outer 1811.In at least one this type of embodiment, outer 1811 can comprise the chamber 1802 be limited to wherein, and chamber 1802 can hold sub-component 1801 wherein.In various scenarios, instrument (such as tweezers 1855) can be utilized by outer 1811 tractives on sub-component 1801.Referring now to Figure 104, once sub-component 1801 is positioned at outer 1811 completely, then outer 1811 can be sealed.In various embodiments, the part to outer 1811 can be utilized to apply heat energy and carry out sealable outer 1811.More particularly, in at least one embodiment, outer 1811 can comprise plastic material, and the opening of its ectomesoderm 1811 can by one or more by the element that heats or ferrum 1856 hot melt, to be combined by the periphery of the opening of outer 1811 and/or to be sealed.Referring now to Figure 105, at least one this type of embodiment, the redundance 1857 of outer 1811 can be removed, and as described hereinly can use nail bin 1800 subsequently.

As mentioned above, nail bin can be arranged in nail bin attachment and/or be fixed to nail bin attachment.Referring now to Figure 106 and Figure 107, in various embodiments, nail bin attachment can comprise nail bin passage (such as nail bin passage 1930), and this nail bin passage can hold nail bin (such as nail bin 1900) wherein at least partially.In at least one embodiment, nail bin passage 1930 can comprise bottom support surface 1931, first lateral support wall 1940 and the second lateral support wall 1941.In use, nail bin 1900 can be positioned in nail bin passage 1930, make nail bin 1900 against and/or adjacent bottom stayed surface 1931 locate, and between the first lateral support wall 1940 and the second lateral support wall 1941.In certain embodiments, sideshake can be limited with between the first lateral support wall 1940 and the second lateral support wall 1941.In at least one this type of embodiment, nail bin 1900 can comprise lateral width 1903, lateral width 1903 is same as and/or wider than the sideshake limited between supporting walls 1940 and 1941, makes the compressible of nail bin 1900 and implantable warehouse 1910 can be matched with between wall 1940 and 1941 securely.In some other embodiment, the lateral width 1903 of nail bin 1900 can be shorter than the gap limited between the first side wall 1940 and the second sidewall 1941.In various embodiments, can being limited by the metal passage of punching press at least partially of wall 1940 and 1941 and bottom support surface 1931, and at least one embodiment, lateral support wall 1940 and/or lateral support wall 1941 can comprise flexible material (such as elastomeric material) at least partially.Main see Figure 106, the first side wall 1940 of nail bin passage 1930 and the second sidewall 1941 all can be formed by the rigid element 1933 upwards extended from bottom support surface 1931 with from the flex section 1934 that rigid element 1933 upwards extends.

In various embodiments, to being described further above, the warehouse 1910 of nail bin 1900 can be made up of one or more compressible layers (such as, ground floor 1911 and the second layer 1912).When warehouse 1910 is compressed against bottom support surface 1931 in the above described manner by anvil block, the sidepiece of warehouse 1910 can laterally extend.Nail bin 1930 is by the embodiment that rigid sidewalls is formed wherein, and rigid sidewalls can prevent or at least limit the lateral extension of warehouse 1910, therefore can produce internal pressure or the stress of significant quantity in warehouse 1910.At nail bin 1930 at least partially by the embodiment that flexible side walls is formed, flexible side walls can laterally flexing allow that the sidepiece of warehouse 1910 laterally stretches, thus reduces the internal pressure that produces in warehouse 1910 or stress.Do not comprise sidewall or included sidewall is relatively shorter than in the embodiment of nail bin at storehouse passage, the sidepiece of nail bin can not suppressed ground or at least substantially laterally extend not suppressedly.Referring now to Figure 107, in any case, nail bin passage 2030 can comprise sidewall 2040 and 2041, and described sidewall 2040 and 2041 can comprise flexible material (such as elastomeric material) completely.Nail bin passage 2030 also can comprise the side direction slit 2033 that the limit along the bottom support surface 2031 of nail bin passage 2030 extends, this side direction slit can hold wherein and fixed sidewall 2040 and 2041 at least partially.In certain embodiments, sidewall 2040 and 2041 can be fixed in slit 2033 via snap fit and/or press-fit structure, and at least some embodiments, sidewall 2040 and 2041 is fixed in slit 2033 by one or more binding agents.In at least one embodiment, sidewall 2040 and 2041 can be dismantled from bottom support surface 2031 during use.In any case, when implantation in warehouse 2010 has staple 2020, compressible and implantable warehouse 2010 can be dismantled from sidewall 2040 and 2041 and/or depart from.

Referring now to Figure 108, in various embodiments, surgical instruments can comprise the end effector of axle 2150 and the remote extension from axle 2150.To similar above, end effector can comprise nail bin passage 2130, the anvil block 2140 that can move between the open position and the closed position and the nail bin 2100 between nail bin passage 2130 and anvil block 2140.Be similar to above equally, nail bin 2100 can comprise compressible and implantable warehouse 2110 and be arranged in multiple staples 2120 of warehouse 2110.In various embodiments, nail bin passage 2130 can comprise bottom support surface 2131, far-end 2135 and near-end 2136, and described nail bin 2100 can be located against bottom support surface 2130.In at least one embodiment, as shown in Figure 108, nail bin 2100 can comprise first end 2105 and the second end 2106, and described first end can be positioned in the far-end 2135 of nail bin passage 2130, and described the second end 2106 can be positioned in the near-end 2136 of nail bin passage 2130.In various embodiments, the far-end 2135 of nail bin passage 2130 can comprise at least one far-end and retain structure (such as retaining wall 2137); Similarly, near-end 2136 can comprise at least one proximal-end retention structure (such as retaining wall 2138).In at least one this type of embodiment, distally retains wall 2137 and nearside retains between wall 2138 and can be limited with gap, described gap can be equal to or less than the length of nail bin 2100, make when nail bin 2100 is inserted in nail bin passage 2130, nail bin 2100 can be matched with in nail bin passage 2130 securely.

Refer again to Figure 88 and Figure 89, in various embodiments, nail bin (such as, nail bin 1200) can comprise flat or at least be essentially flat tissue contacting surface 1219.In at least one this type of embodiment, the staple cartridge body 1210 of nail bin 1200 can comprise first end 1205 and the second end 1206, described first end can be limited by the first height or thickness 1207, described the second end 1206 can be limited by the second height or thickness, and wherein the first height 1207 can equal or at least be substantially equal to the second height 1208.In certain embodiments, warehouse 1210 can comprise height that is constant or at least substantial constant or thickness between first end 1205 and the second end 1206.In at least one this type of embodiment, tissue contacting surface 1219 can be parallel or at least substantially parallel to the lower surface 1218 of warehouse 1210.Refer again to Figure 108, in various embodiments, the first end 2105 of the warehouse 2110 of nail bin 2100 can be limited by the first height 2107, and this first is highly different from second highly 2108 of the second end 2106.In the embodiment shown, the first height 2107 is greater than the second height 2108, but in alternative embodiment, the second height 2108 can be greater than the first height 2107.In various embodiments, the height of warehouse 2110 can reduce linearly and/or geometrically between first end 2105 and the second end 2106.In at least one this type of embodiment, the tissue contacting surface 2119 extended between first end 2105 and the second end 2106 can carry out orientation along the angle limited between first end 2105 and the second end 2106.In at least one this type of embodiment, tissue contacting surface 2119 can be not parallel to the lower surface 2118 of warehouse 2110 and/or be not parallel to the stayed surface 2131 of nail bin passage 2130.

Refer again to Figure 108 and Figure 109, in various embodiments, anvil block 2140 can comprise tissue contacting surface 2141, when anvil block 2140 is in the close position, tissue contacting surface 2141 can be parallel to or at least substantially parallel to the stayed surface 2131 of nail bin passage 2130, as shown in Figure 109.When anvil block 2140 is in the close position, anvil block 2140 can be greater than the second end 2106 to the compression degree of the first end 2105 of nail bin 2100, this is because the height of first end 2105 is higher, and the height of the second end 2106 is lower.In some cases, the tissue T comprised wherein between tissue contacting surface 2119 and 2141 has situation that is constant or at least thickness of substantial constant, and the pressure produced at the far-end place of end effector in tissue T and storehouse 2100 can be greater than the pressure produced at the near-end place of end effector.More particularly, when tissue T between anvil block 2140 and nail bin 2100 has the thickness of substantial constant, the tissue T between the far-end 2145 and the first end 2105 of nail bin 2100 of anvil block 2140 can be greater than the tissue T between the near-end 2146 and the second end 2106 of nail bin 2100 of anvil block 2140 by the degree compressed.In various embodiments, barometric gradient can be produced in the tissue T between the near-end of end effector and far-end.More particularly, in at least one embodiment, tissue T between anvil block 2140 and nail bin 2100 there is the thickness of substantial constant and the height of nail bin 2100 reduces linearly from end effector distal-to-proximal time, the pressure in tissue T can reduce linearly from the far-end of end effector to the near-end of end effector.Similarly, in at least one embodiment, tissue T between anvil block 2140 and nail bin 2100 there is the thickness of substantial constant and the height of nail bin 2100 geometrically reduces from end effector distal-to-proximal time, the pressure in tissue T geometrically can reduce from the far-end of end effector to the near-end of end effector.

Refer again to Figure 108, in various embodiments, the tissue T between nail bin 2100 and anvil block 2140 can not have throughout constant thickness wherein.In at least one this situation, the tissue T between the near-end 2146 and the second end 2106 of nail bin 2100 of anvil block 2140 can be thicker than the tissue T between the far-end 2145 and the first end 2105 of nail bin 2100 of anvil block 2140.Therefore, in this case, thicker tissue T can be usually located at above the lower near-end 2106 of nail bin 2100, and thinner tissue T can be usually located at above higher far-end 2105.In use, the percussion lining ring 2152 of axle 2150 distally can advance along axle ridge 2151, makes to pull the trigger the cam part 2143 that lining ring 2152 engages anvil block 2140, and anvil block 2140 is rotated, as shown in Figure 109 towards nail bin 2100.Once anvil block 2140 rotates to completely closed position, then tissue T can be compressed between tissue contacting surface 2119 and 2141, although and the height of nail bin 2100 can be non-constant between the near-end of end effector and far-end, but be applied to the pressure of tissue T or compression stress in tissue T, can be constant or at least substantial constant.More particularly, when thinner tissue T can with the higher height correlation of nail bin 2100 and thicker tissue T can lower height correlation with nail bin 2100 time, the cumulative height of tissue T and nail bin 2100 or height sum can be constant or at least substantial constant between the near-end of end effector and far-end, and therefore anvil block 2140 is to this cumulative being compressed in cumulative height and can be constant or at least substantial constant highly.

Refer again to Figure 108 and Figure 109, in various embodiments, nail bin 2100 can comprise asymmetric configuration.In at least one this type of embodiment, the height of such as nail bin 2100 at its first end 2105 place can higher than the height of nail bin 2100 at its second end 2106 place.In certain embodiments, nail bin 2100 and/or nail bin passage 2130 can comprise one or more alignment and/or retain structure, described one or more alignment and/or retain structure and can guarantee that nail bin 2100 is only positioned at nail bin passage 2130 along a direction (that is, wherein first end 2105 is arranged in the far-end 2135 of nail bin passage 2130 and the second end 2106 is arranged in the direction of near-end 2136).In various alternative embodiment, nail bin 2100 and/or nail bin passage 2130 can comprise one or more alignment and/or retain structure, and described one or more alignment and/or reservation structure can allow that nail bin 2100 is positioned in nail bin passage 2130 along a more than direction.Referring now to Figure 110, such as nail bin 2100 can be positioned in nail bin passage 2130, can be positioned in the near-end 2136 of nail bin passage 2130 and the second end 2106 can be positioned in far-end 2135 to make the first end 2105 of nail bin 2100.Therefore, in various embodiments, the nail bin 2100 of lower height can be close to distally and retain wall 2137 and locate, and the nail bin 2100 of high height can be close to nearside and retains wall 2138 and locate.In at least one this type of embodiment, nail bin 2100 can by arrange aptly with to have in the far-end of end effector thicker divide and have in the near-end of end effector tissue T that thinner divides apply constant or at least substantial constant add compaction forces.In various embodiments, nail bin 2100 such as can by optionally orientation in nail bin passage 2130.In at least one this type of embodiment, the alignment of nail bin 2100 and/or reservation structure can be symmetrical, and surgeon can carry out orientation to nail bin 2100 along the direction such as shown in Figure 108 and Figure 110 in nail bin passage 2130.

To further describing above, implantable warehouse 2110 can comprise longitudinal axis 2109, and when nail bin 2100 is positioned in nail bin passage 2130, longitudinal axis 2109 can extend between the near-end of end effector and far-end.In various embodiments, warehouse 2110 thickness can between first end 2105 and the second end 2106 longitudinally axis 2109 roughly reduce and/or roughly increase.In at least one this type of embodiment, the distance between lower surface 2118 and tissue contacting surface 2119 or height can roughly reduce and/or roughly increase between first end 2105 and the second end 2106.In certain embodiments, the thickness of warehouse 2110 longitudinally axis 2109 both can increase and also can reduce.In at least one this type of embodiment, the thickness of warehouse 2110 can be included in one or more part that thickness increases and one or more parts that can reduce on thickness.Refer again to figure Z, in various embodiments, nail bin 2100 can comprise the multiple staples 2120 be positioned at wherein.In use, as mentioned above, when anvil block 2140 moves to make position, staple 2120 deformable.In certain embodiments, each staple 2120 can have identical or at least substantially the same height.In at least one this type of embodiment, top such as from the bottom of staple basis to the highest leg of staple or end can measure the height of staple.

In various embodiments, the staple in nail bin can have different staple heights.In at least one this type of embodiment, nail bin can comprise first group of staple with the first staple height and second group of staple with the second staple height, described first group of staple is positioned in the Part I of compressible warehouse, and second group of staple is positioned in the Part II of compressible warehouse.In at least one embodiment, the first staple height can higher than the second staple height, and first group of staple can be positioned in the first end 2105 of nail bin 2100, and second group of staple can be positioned in the second end 2106.Alternatively, first group of higher staple can be positioned in the second end 2106 of nail bin 2100, and lower second group of staple can be positioned in first end 2105.In certain embodiments, can utilize multiple staple group, wherein each group has different staple heights respectively.In at least one this type of embodiment, the 3rd group with middle staple height can be positioned in warehouse 2110 between first group of staple and second group of staple.In various embodiments, each staple in the staple row in nail bin can comprise different staple heights separately.In at least one embodiment, the highest staple in staple row can be positioned on the first end of staple row, and minimum staple can be positioned on the opposite end of this staple row.In at least one this type of embodiment, the staple between the highest staple and minimum staple can be configured such that staple height such as declines between the highest staple and minimum staple.

Referring now to Figure 111, in various embodiments, the end effector of the surgical stapling device nail bin 2200 that can comprise anvil block 2240, nail bin passage 2230 and be supported by nail bin passage 2230.Nail bin 2200 can comprise compressible and implantable warehouse 2210 and be positioned in the multiple staples (such as staple 2220a and staple 2220b) in warehouse 2210.In various embodiments, nail bin passage 2230 can comprise storehouse stayed surface 2231 and be limited to the multiple staples support slits (such as supporting slit 2232a and 2232b) in storehouse stayed surface 2231.In at least one this type of embodiment, nail bin 2200 can comprise two outer row of staple 2220a and two inner row of staple 2220b, wherein supports slit 2232a and can support staple 2220a, and supports slit 2232b and can support staple 2220b.See Figure 111 and Figure 112, anvil block 2240 can comprise the multiple staple formation pits 2242 be limited to wherein, and described multiple staple formation pit 2242 can be worked as described multiple staple formation pit 2242 when anvil block 2240 moves towards nail bin 2200 and held staple 2220a and 2220b and make it be out of shape.In at least one this type of embodiment, the lower surface supporting slit 2232a can with the end face of staple formation pit 2242 at a distance of the first distance 2201a, and support slit 2232b lower surface can with the end face of staple formation pit 2242 second distance 2201b apart.In at least one this type of embodiment, due to be wherein limited with support slit 2232b stayed surface 2231 in there is the step of rising, therefore support slit 2232b and locate closer to anvil block 2240.Owing to having different distance 2201a and 2201b, therefore in various embodiments, the outer row of staple 2220a and the internal layer of staple 2220b is capable can be deformed to different forming heights.In various scenarios, the staple being deformed into differing formed height can apply different clamping pressures or power to sewed up tissue T.Over and above what is described above, originally staple can have different unshaped staple heights.Refer again to Figure 111, at least one this type of embodiment, the initial unshaped height of outer staple 2220a can be greater than the initial unshaped height of inner side staple 2220b.As shown in Figure 111 and Figure 112, unshaped height also can have the forming height lower than outside staple 2220b lower than the inner side staple 2220b of outside staple 2220a.In various alternative embodiment, inner side staple 2220b can have the movement joint staple height had lower than outside staple 2220a higher than the unshaped height of outside staple 2220a.

In various embodiments, to being described further above, anvil block 2240 is moveable to make position (as shown in Figure 112), to compress warehouse 2210 and to make staple 2220a and 2220b distortion.In certain embodiments, the surgical stapling device comprising end effector shown in Figure 111 and Figure 112 such as also can comprise cutting element, and described cutting element can the tissue T of crosscut between anvil block 2240 and nail bin 2200.In at least one this type of embodiment, anvil block 2240, nail bin passage 2230 and/or nail bin 2200 can limit slit, and described slit can hold cutting element wherein slidably.More specifically, anvil block 2240 can comprise slot portion 2249, nail bin passage 2230 can comprise slot portion 2239, and nail bin 2200 can comprise slot portion 2203, when anvil block 2240 is in the close position or at least substantially closed position time, slot portion 2249, slot portion 2239 and slot portion 2203 can be alignd or at least substantial alignment mutually.In various embodiments, after anvil block 2240 is closed and staple 2220a, 2220b are out of shape, cutting element can from the near-end of end effector towards the distal movement of end effector.In at least one embodiment, cutting element can move with the incoherent mode of staple deformation process.In certain embodiments, cutting element can advance while staple distortion.In any case, at least one embodiment, cutting element can along the path incised tissue between the inner row formed at staple 2220b.

In various embodiments, as shown in Figure 112, inner side staple 2220b can be shaped to the height lower than outside staple 2220a, and the tissue that wherein inner side staple 2220b can be adjacent to the line of cut formed with cutting element applies larger clamping pressure or power.In at least one this type of embodiment, the larger clamping pressure that inner side staple 2220b is formed or power can provide various useful therapeutic effect, such as making to be cut open tissue T reduces hemorrhage, and the less clamping pressure that outside staple 2220a is formed can provide motility in the tissue sewed up.Refer again to Figure 111 and Figure 112, in various embodiments, anvil block 2240 also can comprise at least one piece of backing material (such as backing material 2260) being attached to anvil block 2240.In at least one this type of embodiment, the leg of staple 2220a, 2220b can work as nail bin 2200 when being compressed by anvil block 2240 and contact the staple formation pit 2242 in anvil block 2240 subsequently, and the leg of staple 2220a, 2220b cuts backing material 2260 and/or through the hole in backing material 2260.When the leg distortion of staple 2220a, 2220b, described leg can contact and/or cut backing material 2260 again.In various embodiments, backing material 2260 can improve the hemostatic capability of institute's suture tissue and/or provide intensity for institute's suture tissue.

Refer again to Figure 111 and Figure 112, in various embodiments, the lower surface of warehouse 2210 can comprise stepped profile, and described stepped profile is mated with the stepped profile of storehouse stayed surface 2231 or at least substantially mated.In certain embodiments, the lower surface deformable of warehouse 2210 is with coupling or the profile at least substantially mating storehouse stayed surface 2231.Referring now to Figure 113, the end effector, in various embodiments, being similar to end effector shown in Figure 111 such as can comprise the nail bin 2300 be positioned at wherein.Nail bin 2300 can comprise and has internal layer 2312 and outer 2311 compressible and implantable body 2310, and wherein to being described further above, at least one embodiment, outer 2311 can comprise water impervious material.In various embodiments, outer 2311 can extend around staple 2220a, 2220b and can lay respectively at staple 2220,2220b and between support slit 2232a, 2232b.Referring now to Figure 114, the end effector, in various embodiments, being similar to end effector shown in Figure 111 such as can comprise the nail bin 2400 be positioned at wherein.Be similar to nail bin 2300, nail bin 2400 compressible implantable warehouse 2410 can comprise internal layer 2412 and outer 2411; But, at least one embodiment, in warehouse 2410, cutting element slit can not be comprised.In at least one this type of embodiment, cutting element can need such as to cut internal layer 2412 and/or outer 2411 when it advances through nail bin.

Referring now to Figure 115, in various embodiments, the end effector of the surgical stapling device nail bin 2500 that can comprise anvil block 2540, nail bin passage 2530 and be positioned in nail bin passage 2530.To similar above, nail bin 2500 can comprise compressible and implantable warehouse 2510, the outer row of staple 2220a and the inner row of staple 2220b.Nail bin passage 2530 can comprise flat or at least substantially flat storehouse stayed surface 2531 and the staple be limited in storehouse stayed surface 2531 supports slit 2532.Anvil block 2540 can comprise stepped surface 2541 and be limited to the multiple staple formation pits (such as shaping pit 2542a and 2542b) in stepped surface 2541.To similar, distance can be limited with between shaping pit 2542a and support slit 2532, the distance that described distance is greater than shaping pit 2452b and supports between slit 2532 above.In various embodiments, anvil block 2540 also can comprise one piece of backing material 2560 of the stepped surface 2541 being attached to anvil block 2540.In at least one this type of embodiment, backing material 2560 can conform to or at least substantially conform to stepped surface 2541.In various embodiments, backing material 2560 is attached to surface 2541 removedly by least one binding agent (such as, fibrin and/or protein hydrogel).In certain embodiments, warehouse 2510 also can comprise staged profile, and at least one embodiment, described staged profile is parallel to or at least substantially parallel to the stepped surface 2541 of anvil block 2540.More particularly, in at least one embodiment, anvil block 2540 can comprise the ladder 2548 extended towards nail bin 2500, and wherein ladder 2548 can comprise ladder height, and described ladder height equals or is at least substantially equal to the ladder height of the ladder 2508 extended from warehouse 2510.In at least one this type of embodiment, as result above, such as compressible warehouse 2510 amount that can be trapped in the first staple 2220a can be different from compressible warehouse 2510 can be trapped in amount in the second staple 2220b.

Referring now to Figure 116, in various embodiments, end effector can comprise anvil block 2640, nail bin passage 2530 and the nail bin between anvil block 2640 and nail bin passage 2,530 2600.Nail bin 2600 can comprise compressible and implantable warehouse 2610, multiple staples (such as staple 2220a and 2200b) that warehouse 2610 comprises internal layer 2612, skin 2611 and is positioned in warehouse 2610.In various embodiments, anvil block 2640 can comprise multiple staple formation pit 2642 on surface 2641, and nail bin passage 2530 can comprise the multiple staple formation slits 2532 be limited in stayed surface 2531.As shown in Figure 116, anvil faces 2641 can be parallel to or at least substantially parallel to storehouse stayed surface 2531, and wherein each shaping pit 2642 can be oriented to relative and corresponding staple supports slit 2532 at a distance of equal or at least substantially equal distance.In various embodiments, the staple included by nail bin 2600 can have identical or at least substantially the same initial unshaped staple height and identical or at least substantially the same fashion seam staple height.In some other embodiment, staple row in outside can comprise staple 2220a and staple row in inner side can comprise staple 2220b, and wherein as mentioned above, staple 2220a and 2220b can have different unshaped staple heights.When anvil block 2640 moves to make position towards nail bin 2600, staple 2220a and 2220b can be shaped as and make staple 2220a and 2220b have identical or at least substantially the same fashion seam staple height.In at least one this type of embodiment, as result above, the compressible warehouse 2610 of identical or at least substantially the same amount in the outside staple 2220a of shaping and inner side staple 2220b, can be accommodated.But, when outside staple 2220a has the unshaped staple height higher than inner side staple 2220b but can have identical fashion seam staple height, the clamping pressure such as, produced in outside staple 2220a can be greater than the clamping pressure produced in the staple 2220b of inner side.

Referring now to Figure 117, in various embodiments, the end effector of the surgical stapling device nail bin 2700 that can comprise anvil block 2740, nail bin passage 2530 and be positioned in nail bin passage 2530.To similar above, nail bin 2700 can comprise compressible and implantable warehouse 2710, multiple staples (such as staple 2220a and 2220b) that warehouse 2710 comprises internal layer 2712, skin 2711 and is positioned in warehouse 2710.In at least one embodiment, the thickness of warehouse 2710 can change through its width.In at least one this type of embodiment, warehouse 2710 can comprise central part 2708 and sidepiece 2709, and wherein the thickness of central part 2708 can be greater than the thickness of sidepiece 2709.In various embodiments, the thickest part of warehouse 2710 can be positioned at central part 2708 place, and the thinnest part of warehouse 2710 can be positioned at sidepiece 2709 place.In at least one this type of embodiment, the thickness of warehouse 2710 can reduce gradually between central part 2708 and sidepiece 2709.In certain embodiments, the thickness of warehouse 2710 can reduce linearly and/or geometrically between central part 2708 and sidepiece 2709.In at least one this type of embodiment, the tissue contacting surface 2719 of warehouse 2710 can comprise from central part 2708 towards sidepiece 2709 downwards than two inclinations or the angled surface fallen.In various embodiments, anvil block 2740 can comprise two tilt or angled surfaces, described two tilt angled surface is parallel to or at least substantially parallel to tilt tissue contacting surface 2719.In at least one embodiment, anvil block 2740 also can comprise at least one piece of backing material 2760 of the inclined surface being attached to anvil block 2740.

In various embodiments, to being described further above, the inner side staple row in nail bin 2700 can comprise higher staple 2220a, and staple row in outside can comprise lower staple 2220b.In at least one embodiment, higher staple 2220a can be positioned in thicker central part 2708 and/or adjacent with central part 2708, and staple 2220b can be positioned in sidepiece 2709 and/or adjacent with sidepiece 2709.In at least one this type of embodiment, as result above, higher staple 2220a can catch the material of more implantable warehouse 2710 by lower staple 2220b.This situation can make staple 2220a apply larger clamping pressure than staple 2220b to tissue T.In certain embodiments, although the material of more warehouse 2710 can be caught by lower staple 2220b in higher staple 2220a, but there is the structure of inclination due to staple formation pit 2742a and 2742b, therefore higher staple 2220a can have higher fashion seam staple height by lower staple 2220b.Reach the clamping pressure of expectation in the tissue that this Consideration can be utilized to catch at staple 2220a and 2220b, wherein as a result, such as, clamping pressure in staple 2220a can be greater than, is less than or equals the clamping pressure that staple 2220b applies tissue.In various alternative embodiment of end effector shown in Figure 117, lower staple 2220b can be positioned in the thicker central part 2708 of warehouse 2710 and/or contiguous central part 2708, and higher staple 2220a can be positioned in thinner sidepiece 2709 and/or adjacent side portion 2709.In addition, although nail bin 2700 is depicted as comprise inner side and outside staple row, but nail bin 2700 can comprise additional staple row, and such as, staple between inner side staple row and outside staple arrange is arranged.In at least one this type of embodiment, such as, the unshaped staple height of staple row can between the unshaped staple height of staple 2220a and the unshaped staple height of staple 2220b, and the fashion seam staple height of middle staple row can between the fashion seam staple height of staple 2220a and the fashion seam staple height of staple 2220b.

Referring now to Figure 118, in various embodiments, the end effector of the surgical stapling device nail bin 2800 that can comprise anvil block 2840, nail bin passage 2530 and be positioned in nail bin passage 2530.To similar above, nail bin 2800 can comprise compressible and implantable warehouse 2810, multiple staples (such as staple 2220a and 2220b) that warehouse 2810 comprises internal layer 2812, skin 2811 and is positioned in warehouse 2810.In at least one embodiment, the thickness of warehouse 2810 can change through its width.In at least one this type of embodiment, warehouse 2810 can comprise central part 2808 and sidepiece 2809, and wherein the thickness of central part 2808 can be less than the thickness of sidepiece 2809.In various embodiments, the thinnest part of warehouse 2810 can be positioned at central part 2808 place, and the thickest part of warehouse 2810 can be positioned at sidepiece 2809 place.In at least one this type of embodiment, the thickness of warehouse 2810 can increase gradually between central part 2808 and sidepiece 2809.In certain embodiments, the thickness of warehouse 2810 can increase linearly and/or geometrically between central part 2808 and sidepiece 2809.In at least one this type of embodiment, the tissue contacting surface 2819 of warehouse 2810 can comprise from central part 2808 towards sidepiece 2809 upwards than two inclinations or the angled surface fallen.In various embodiments, anvil block 2840 can comprise two tilt or angled surfaces, described two tilt angled surface is parallel to or at least substantially parallel to tilt tissue contacting surface 2819.In at least one embodiment, anvil block 2840 also can comprise at least one piece of backing material 2860 of the inclined surface being attached to anvil block 2840.In various embodiments, to being described further above, the outside staple row in nail bin 2800 can comprise higher staple 2220a, and staple row in inner side can comprise lower staple 2220b.In at least one embodiment, higher staple 2220a can be positioned in thicker sidepiece 2809 and/or adjacent with sidepiece 2809, and staple 2220b can be positioned in central part 2808 and/or adjacent with central part 2808.In at least one this type of embodiment, as result above, higher staple 2220a can catch the material of more implantable warehouse 2810 by lower staple 2220b.

As described in the embodiment above with reference to Figure 111, such as, nail bin passage 2230 can comprise stepped support surface 2231, and staple 2220a and 2220b can be supported in differing heights place relative to anvil block 2240 by stepped support surface 2231.In various embodiments, nail bin passage 2230 can be made up of metal, and the ladder in stayed surface 2231 is formed in stayed surface 2231 by such as grinding operation.Referring now to Figure 119, in various embodiments, the end effector of surgical instruments can comprise nail bin passage 2930, and this nail bin passage comprises the support insert 2935 be positioned at wherein.More particularly, in at least one embodiment, nail bin passage 2930 can be formed to make it have such as flat or at least substantially flat stayed surface 2931, this stayed surface can support insert 2935, and this support insert comprises the stepped surface for the staple 2220a of nail bin 2200 and 2220b being supported on differing heights place.In at least one this type of embodiment, insert 2935 can comprise flat or at least substantially flat lower surface, and described lower surface can be located against stayed surface 2931.Insert 2935 also can comprise support slit, groove or groove 2932a and 2932b, supports slit, groove or groove 2932a and 2932b and staple 2220a and 2220b can be supported on differing heights place respectively.To similar above, insert 2935 can comprise the cutter slit 2939 be limited to wherein, and cutter slit 2939 can allow that cutting element passes wherein.In various embodiments, nail bin passage 2930 can be formed by being same or different from the material supporting insert 2935.In at least one this type of embodiment, nail bin passage 2930 and support both inserts 2935 and all can such as be made up of metal, and in other embodiments, nail bin passage 2930 can be such as made up of metal, and supports insert 2935 and can such as be made up of plastics.In various embodiments, supporting insert 2935 can be fastened and/or be welded in nail bin passage 2930.In certain embodiments, supporting insert 2935 can snap fit and/or be press-fitted in nail bin passage 2930.In at least one embodiment, binding agent can be used to be fixed in nail bin passage 2930 by support insert 2935.

Referring now to Figure 120, in various embodiments, the end effector of surgical stapling device can comprise anvil block 3040, nail bin passage 3030 and be arranged in the compressible of nail bin passage 3030 and implantable nail bin 3000.To similar above, anvil block 3040 can comprise the multiple staple formation pit 3042 be limited to wherein and the cutter slit 3049 that cutting element can be slidably received within wherein.Be similar to above equally, nail bin passage 3030 can comprise the cutter slit 3039 being limited to multiple staples wherein and supporting slit 3032 and also cutting element can be slidably received within wherein.In various embodiments, nail bin 3000 can comprise ground floor 3011, the second layer 3012 and be positioned at the multiple staples (such as staple 3020a and 3020b) in nail bin 3000.In at least one embodiment, the unshaped staple height of staple 3020a can higher than the unshaped staple height of staple 3020b.In various embodiments, ground floor 3011 can comprise the first compressible material, and the second layer 3012 can comprise the second compressible material.In certain embodiments, the compression ratio of the first compressible material can higher than the second compressible material, and in some other embodiment, the compression ratio of the first compressible material can lower than the second compressible material.In at least one embodiment, first compressible material can be made up of the elastomeric material that can comprise the first flexible ratio, and the second compressible material can be made up of the elastomeric material that can comprise the second flexible ratio, described second flexible ratio is different from described first flexible ratio.In various embodiments, the flexible ratio of the first compressible material can be greater than the flexible ratio of the second compressible material.In some other embodiment, the flexible ratio of the first compressible material can be less than the flexible ratio of the second compressible material.In various embodiments, the first compressible stratum can comprise the first rigidity, and the second compressible stratum can comprise the second rigidity, and wherein the first rigidity is different from the second rigidity.In various embodiments, the rigidity of the first compressible stratum can be greater than the rigidity of the second compressible stratum.In some other embodiment, the rigidity of the first compressible stratum can be less than the rigidity of the second compressible stratum.

Refer again to Figure 120, in various embodiments, the second layer 3012 of nail bin 3000 can comprise thickness that is constant or at least substantial constant through its width.In at least one embodiment, the thickness of ground floor 3011 can change through its width.In at least one this type of embodiment, ground floor 3011 can comprise one or more ladder 3008, and ladder 3008 can increase the thickness of warehouse 3010 in some part (such as central part) of warehouse 3010.Refer again to Figure 120, the thicker that lower staple 3020b can be positioned in ladder 3008(and warehouse 3010 is divided) in or to align with ladder 3008, and the thinner that higher staple 3020a can be positioned in warehouse 3010 divide in or to divide with described thinner and align.In various embodiments, the result that the thicker as warehouse 3010 is divided and thinner is divided, the rigidity of the inner row along staple 3020b formation of warehouse 3010 can be greater than the rigidity of the outer row formed along staple 3020a.In various embodiments, ground floor 3011 can be connected to the second layer 3012.In at least one this type of embodiment, ground floor 3011 and the second layer 3012 can comprise interlocking structure, and layer 3011 and 3012 can keep together by described interlocking structure.In certain embodiments, ground floor 3011 can comprise ground floor compound and the second layer 3012 can comprise second layer compound, and wherein ground floor compound adheres to second layer compound by one or more binding agents.In various embodiments, nail bin 3000 can comprise cutter slit 3003, and cutter slit 3003 can hold cutting element wherein slidably.

Referring now to Figure 121, in various embodiments, nail bin 3100 can comprise compressible and implantable warehouse 3110, and warehouse 3110 comprises monolayer compressible material and is positioned at the multiple staples (such as, staple 3020b) in warehouse 3110.In at least one embodiment, the thickness of warehouse 3110 can change through its width.In at least one this type of embodiment, warehouse 3110 can comprise the step 3108 that the limit along warehouse 3110 extends.Referring now to Figure 122, in various embodiments, nail bin 3200 can comprise compressible and implantable warehouse 3210, and this warehouse 3210 comprises monolayer compressible material and is positioned at the multiple staples (such as staple 3020b) in warehouse 3210.In at least one embodiment, the thickness of warehouse 3210 can change through its width.In at least one this type of embodiment, warehouse 3210 can comprise the step 3208 that the central part along warehouse 3210 extends.Referring now to Figure 123, in various embodiments, nail bin 3300 can comprise compressible and implantable warehouse 3310, and wherein to similar above, the thickness of warehouse 3310 can change through its width.In at least one embodiment, the thickness of warehouse 3310 geometrically can increase between the sidepiece of warehouse 3310 and central part.In at least one this type of embodiment, the thickness of warehouse 3310 can be limited by arch or bending profile and can comprise arch or bending tissue contacting surface 3319.In certain embodiments, the profile of the thickness of warehouse 3310 and tissue contacting surface 3319 by a such as radius of curvature or alternately can be limited by several radius of curvature.Referring now to Figure 124, in various embodiments, nail bin 3400 can comprise compressible and implantable warehouse 3410, and wherein the thickness of warehouse 3410 can increase to substantial linear linearly or at least between the sidepiece of warehouse 3410 and central part.

Referring now to Figure 125, in various embodiments, nail bin 3500 can comprise compressible and implantable warehouse 3510 and be arranged in multiple staples 3520 of warehouse 3510.Implantable warehouse 3510 can comprise the first internal layer 3512, second internal layer 3513 and outer 3511.In at least one embodiment, the first internal layer 3512 can comprise the first thickness and the second internal layer 3513 can comprise the second thickness, and wherein the second internal layer 3513 can be thicker than the first internal layer 3512.In at least one alternative embodiment, the first internal layer 3512 can be thicker than the second internal layer 3513.In another alternative embodiment, the first internal layer 3512 can have identical or at least substantially the same thickness with the second internal layer 3513.In certain embodiments, each staple 3520 can comprise base portion 3522 and the one or more deformable legs 3521 from base portion 3522 extension.In various embodiments, each leg 3521 can comprise the end 3523 in embedding first internal layer 3511, and each base portion 3522 of staple 3520 can embed in the second internal layer 3512 in addition.In at least one embodiment, first internal layer 3512 and/or the second internal layer 3513 can comprise at least one medicine stored therein, and in various embodiments, outer 3511 can encapsulate and seal the first internal layer 3512 and the second internal layer 3513, make to only have outer 3511 to be pierced through by staple 3520 after medicine just can flow out staple cartridge body 3510.More particularly, to being described further above, the tissue that can abut against tissue contacting surface 3519 against nail bin 3500 and location promotes anvil block downwards, warehouse 3510 is compressed and surface 3519 towards staple end 3523 moving downward below staple end 3523 at least in part, make end 3523 make outer 3511 to break or pierce through outer 3511.Staple lower limb 3521 make outer 3511 break after, at least one medicine M can flow out the warehouse 3510 around staple lower limb 3521.In various scenarios, additional medicine M can be extruded warehouse 3510, as shown in Figure 126 by the additional compression of warehouse 3510.

Refer again to Figure 125, in various embodiments, outer 3511 can comprise water impervious or impermeable integument at least substantially, and described integument can prevent medicine from flowing out nail bin 3500 prematurely and prevent the fluid in operative site from entering prematurely in nail bin 3500.In certain embodiments, the first internal layer 3512 can comprise the first medicine storing or be absorbed in wherein, and the second internal layer 3513 can comprise the second medicine storing or be absorbed in wherein, and wherein the second medicine can be different from the first medicine.In at least one embodiment, outer 3511 initial compression of breaking that make of warehouse 3510 can make the first internal layer 3512 discharge the first medicine usually, and the subsequent compression of warehouse 3510 can make the second internal layer 3513 discharge the second medicine usually.But in this type of embodiment, some part of the first medicine and the second medicine can be released, but the major part of initial d/d medicine can be made up of the first medicine simultaneously, and the major part of d/d medicine can be made up of the second medicine subsequently.In certain embodiments, to being described further above, first internal layer 3512 can be formed by having larger compressible material than the second internal layer 3513, makes can to produce than initial deflection amount larger in the second internal layer 3513 in the first internal layer 3512 lower than the initial compression force of subsequent compression power or pressure or pressure.This larger initial deflection amount in first internal layer 3512 can make the part of the first medicine discharged from the first internal layer 3512 be greater than the second medicine discharged from the second internal layer 3513.In at least one embodiment, comparable second internal layer 3513 of the first internal layer 3512 porous and/or have more flexibility more.In at least one this type of embodiment, first internal layer 3512 can comprise the multiple hole or space 3508 that are limited to wherein, and the second internal layer 3513 can comprise the multiple hole or space 3509 that are limited to wherein, wherein in various embodiments, hole 3508 can by the first medicament storage in the first internal layer 3512, and hole 3509 can by the second medicament storage in the second internal layer 3513.In certain embodiments, the size in the hole 3508 in the first internal layer 3512 and the hole 3509 in the second internal layer 3513 and density can be selected to and provide results needed as herein described.

Refer again to Figure 125 and Figure 126, in various embodiments, outer 3511, first internal layer 3512 and/or the second internal layer 3513 can by can the material of bio-absorbable form.In at least one embodiment, first internal layer 3512 can comprise first can the material of bio-absorbable, second internal layer 3513 can comprise second can the material of bio-absorbable, and outer 3511 can the material of bio-absorbable can be formed by the 3rd, wherein first can the material, second of bio-absorbable can the material and/or the 3rd of bio-absorbable can the material of bio-absorbable can be made up of different materials.In certain embodiments, first can bio-absorbable material can first rate by bio-absorbable, second can bio-absorbable material can the second speed by bio-absorbable, and the 3rd can bio-absorbable material can third speed by bio-absorbable, wherein first rate, the second speed and/or third speed can be different.In at least one this type of embodiment, when material with specific speed by bio-absorbable time, this speed can be defined by the amount of the quality of materials absorbed by patient body within the unit interval.As everyone knows, the health of different patient different speed can absorb different materials, and therefore this speed can be expressed as Mean Speed to explain this transmutability.In any case, compared with slower speed, speed can be the absorbed speed of more quality within the unit interval faster.Refer again to Figure 125 and Figure 126, in various embodiments, the comparable constituent material of outer 3511 of constituent material of the first internal layer 3512 and/or the second internal layer 3513 is quickly by bio-absorbable.In at least one this type of embodiment, first internal layer 3512 and/or the second internal layer 3513 can by can the foams of bio-absorbable, tissue seal, and/or hemostatic material (such as oxidized regenerated cellulose (ORC)) is formed, and outer 3511 can by backing material and/or plastic material (such as with the polyglycolic acid (PGA) that trade name Vicryl sells, polylactic acid (PLA, PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), poliglecaprone 25(PGCL so that trade name Monocryl sells), polycaprolactone (PCL), and/or PGA, PLA, PDS, PHA, PGCL, and/or the complex of PCL) form.In this type of embodiment, the first internal layer 3512 and/or the second internal layer 3513 such as directly can process tissue can reducing and organize hemorrhage, its ectomesoderm 3514 long-term support structure can be provided and can be slower speed by bio-absorbable.

To being described further above, due to outer 3511 can the speed of bio-absorbable comparatively slow, therefore outer 3511 can organization healing in staple line time supporting tissue or structurally strengthen tissue.In certain embodiments, one of them the constituent material of the comparable another one of constituent material of the first internal layer 3512 and the second internal layer 3513 is quickly by bio-absorbable.In at least one embodiment, one deck wherein can provide the initial release for the treatment of material, and another layer can provide the slow release of identical treatment material and/or different treatment material.In at least one this type of embodiment, treatment material can be depending on the absorbability of the bottom wherein absorbing or be dispersed with medicine from the d/d speed of layer 3512,3513.Such as, at least one embodiment, comprise the comparable substrate comprising the second internal layer 3513 of the substrate of the first internal layer 3512 quickly by bio-absorbable, therefore such as medicine can faster than the speed of the release from the second internal layer 3513 from the speed that the first internal layer 3512 discharges.In various embodiments, as described herein, one or more in the layer 3511,3512 and 3513 of warehouse 3510 adhere to mutually by least one binding agent (such as, fibrin and/or protein hydrogel).In certain embodiments, binding agent can be can be water-soluble and can work as nail bin 3500 implanted time and/or implanted certain period after discharge connection between each layer.In at least one this type of embodiment, binding agent can than outer 3511, first internal layer 3512 and/or the second internal layer 3513 quickly by bio-absorbable.

Referring now to Figure 127 and Figure 128, in various embodiments, nail bin (such as, nail bin 3600) can comprise warehouse 3610, and warehouse 3610 comprises compressible ground floor 3611, is attached to the second layer 3612 of ground floor 3611 and is attached to the removable compressible stratum 3613 of the second layer 3612.In at least one this type of embodiment, such as ground floor 3611 can be made up of compressible foamed materials, the second layer 3612 can comprise the laminate utilizing one or more binding agents to adhere to ground floor 3611, and third layer 3613 can comprise the compressible foam material utilizing one or more binding agents to adhere to the second layer 3612 removedly.In various embodiments, nail bin 3600 also can comprise the multiple staples (such as staple 3620) being arranged in warehouse 3610.In at least one this type of embodiment, such as each staple 3620 can comprise the base portion 3622 being arranged in third layer 3613 and the one or more deformable legs 3621 extending upwardly to ground floor 3611 from base portion 3622 through the second layer 3612.In use, to being described further above, the end face 3619 of staple cartridge body 3610 can be promoted downwards by anvil block, penetrates end face 3619 and target tissue and till contacting anvil block until staple lower limb 3621.After staple lower limb 3621 is badly deformed, anvil block can move away from nail bin 3600, and the compressible stratum of nail bin 3600 can be stretched at least in part again.In various scenarios, can make to organize hemorrhage when staple is inserted through tissue.In at least one embodiment, third layer 3613 can be made up of absorbing material (such as protein hydrogel), and described absorbing material can absorb blood from the tissue be sewn.Except above or as above substitute, third layer 3613 can be made up of hemostatic material and/or tissue seal (such as through cryodesiccated thrombin and/or fibrin), described hemostatic material and/or tissue seal can reduce organize hemorrhage.In certain embodiments, third layer 3613 can provide support structure to ground floor 3611 and the second layer 3612, wherein third layer 3613 can by can bio-absorbable material and/or can not the material of bio-absorbable form.In any case, in various embodiments, after nail bin 3610 is implanted, third layer 3613 can be dismantled from the second layer 3612.Third layer 3613 comprises in the embodiment of the material with implantable quality wherein, and surgeon can select the third layer 3613 whether removing warehouse 3610.In at least one embodiment, third layer 3613 can remove from the second layer 3612 with integral form.

In various embodiments, ground floor 3611 can be made up of the first foamed materials, and third layer 3613 can be made up of the second foamed materials, and the second foamed materials can be different from the first foamed materials.In at least one embodiment, the first foamed materials can have the first density and the second foamed materials can have the second density, and wherein the first density can be different from the second density.In at least one this type of embodiment, the second density can higher than the first density, and wherein as a result, the compressibility of the comparable ground floor of third layer 3,613 3611 is less or have lower compression ratio.In at least one alternative embodiment, the first density can higher than the second density, and wherein as a result, the compressibility of the comparable third layer of ground floor 3,611 3613 is less or have lower compression ratio.Referring now to Figure 129 and Figure 130, in various embodiments, be similar to nail bin 3600, nail bin 3700 can comprise warehouse 3710, and this warehouse 3710 comprises the first compressible froth bed 3711, is attached to the second layer 3712 of ground floor 3711 and is attached to dismountable 3rd compressible foam foam layer 3713 of the second layer 3712 removedly.In at least one this type of embodiment, third layer 3713 can comprise multiple staple and hold slit or otch 3709, and described multiple staple accommodation slit or otch can hold (such as the staple basis 3622) at least partially of staple 3620 respectively wherein.Or in other words in certain embodiments, staple 3620 can be held in slit 3709 in staple and slides, and, third layer 3713 can such as when nail bin 3700 be located against target tissue and compressed by anvil block, and third layer 3713 is slided relative to staple 3620.In at least one embodiment, hold slit 3709 and can make to there is space between staple 3620 and the sidewall holding slit 3709.In at least one this type of embodiment, as result above, when staple 3620 is out of shape, a part for third layer 3713 can not be captured in wherein by staple 3620, as shown in Figure 129 and Figure 130.In some other embodiment, the end of the contiguous second layer 3712 that staple holds slit 3709 can be closed by a part for third layer 3713, therefore when staple 3620 is out of shape, third layer 3713 can be trapped in staple 3620 at least partially.In any case, third layer 3713 such as can comprise one or more perforation and/or cut 3708, and described one or more perforation and/or cut can allow that third layer 3713 is removed, as shown in Figure 129 from the second layer 3712 with two parts or more part.In Figure 129, a wherein part for third layer 3713 is illustrated as being removed by instrument 3755.In various embodiments, bore a hole 3708 can along be positioned at first staple row with the second staple arrange centre line arrange.

Refer again to Figure 129 and Figure 130, in various embodiments, the base portion 3622 of staple 3620 can be arranged in and hold slit 3709, and wherein at least one embodiment, the sidewall holding slit 3709 can contact staple lower limb 3621 and is held in releasedly on location by staple lower limb 3621.In certain embodiments, although not shown, but third layer 3713 can comprise the elongated slot of all staples in staple line.In at least one this type of embodiment, the nail bin comprising four staple rows such as can comprise arranges the elongated slot of aliging with each staple in nail bin bottom.To being described further above, nail bin 3600 and/or nail bin 3700 at least partially can in implanted patient body, and can the removing in patient body at least partially of nail bin.Refer again to Figure 129 and Figure 130, at least one embodiment, ground floor 3711 and the second layer 3712 can be trapped in also can be implanted together with staple 3620 in staple 3620, and third layer 3713 is optionally removed or dismantles from nail bin 3700.In various scenarios, remove the amount that the part implanting nail bin can reduce the material that patient body must absorb, this can provide various useful therapeutic effect.Such as by abdominal cavity mirror instrument 3755 part for nail bin to be dismantled and in the situation removed, the nail bin part dismantled is removed from operative site by the trocar (such as having the trocar in 5mm hole).In certain embodiments, warehouse can comprise the more than one layer be removed.Such as, warehouse 3710 can comprise the 4th layer, and wherein the third layer 3713 of warehouse 3710 can be made up of hemostatic material, and the 4th layer can be made up of supporting layer.In at least one this type of embodiment, surgeon's such as removable supporting layer is also selected whether to remove hemostatic layer subsequently.

Referring now to Figure 131, in various embodiments, nail bin (such as, nail bin 3800) can comprise warehouse 3810, and warehouse 3810 comprises outer 3811 and internal layer 3812.Internal layer 3812 can be made up of compressible foamed materials, and outer 3811 can wrap up around internal layer 3812 at least in part.In at least one embodiment, outer 3811 can comprise Part I 3811a and Part II 3811b, this Part I can be positioned on the first side of internal layer 3812, this Part II can be positioned on the second side of internal layer 3812, and wherein Part I 3811a is connected by flexible hanger (such as hinge 3809) with Part II 3811b.In at least one this type of embodiment, can to the first side of internal layer 3812 and/or the second side coating at least one binding agent (such as, fibrin and/or protein hydrogel) with by some partial fixing to the first side of outer 3811 and/or the second side.In various embodiments, outer 3811 can comprise the one or more clamp structures extended from it.In at least one this type of embodiment, outer 3811 sides that can comprise from outer 3811 extend and can be placed in the multiple deformable legs 3821 compressible internal layer 3812.In at least one this type of embodiment, leg 3821 can not from the second lateral process of internal layer 3812, and at least one alternative embodiment, leg 3821 can at least in part from internal layer 3812 projection.When compressible warehouse 3810 is by compression, in use, leg 3821 can pierce through the Part II 3811b of internal layer 3812 and outer 3811.In certain embodiments, the Part II 3811b of outer 3811 can comprise the hole (such as hole 3808) be limited to wherein, and described hole can hold staple lower limb 3821.In certain embodiments, at least some part of nail bin 3800 can comprise cutter slit 3803, and this cutter slit can hold cutting element wherein slidably.In at least one this type of embodiment, cutter slit 3803 can extend not entirely through the thickness of warehouse 3810, and therefore when cutting element moves relative to warehouse 3810, cutting element can cut warehouse 3810.

Referring now to Figure 132, in various embodiments, similar to nail bin 3800, nail bin 3900 can comprise warehouse 3910, warehouse 3910 comprises internal layer 3812 and outer 3811, the Part II 3811b that its ectomesoderm 3811 can comprise the first side of contiguous internal layer 3812 and the second side of the Part I 3811a that locates and contiguous internal layer 3812 and locate.In at least one embodiment, to similar above, outer 3811 can comprise the one or more clamp structures extended from it.In at least one this type of embodiment, outer 3811 can comprise the multiple deformable legs 3921 extending from the side of skin 3811 and also can be placed in compressible internal layer 3812.In certain embodiments, each deformable leg 3921 can comprise at least one suspension hook from its projection or barb 3923, and at least one suspension hook described or barb can engage the Part II 3811b of outer 3811 and therefore skin 3811 be remained to internal layer 3812.In at least one this type of embodiment, barb 3923 can from the second lateral process of internal layer 3812 and the hole 3808 extended through the Part II 3811b of outer 3811, make barb 3923 can engage the outer surface of outer 3811 and skin 3811 is locked onto internal layer 3812.For structure nail bin 3900, internal layer 3812 can be at least partially compressed, to make barb from internal layer 3812 projection and access aperture 3808.In at least one this type of embodiment, such as, when nail bin 3900 is inserted in nail bin, nail bin 3900 can by precommpression at least in part.In certain embodiments, to being described further above, leg 3921 can embed in the Part I 3811a of outer 3811 at least partially, wherein at least one embodiment, outer 3811 can be made up of plastic material (such as PPDO (PDS) and/or polyglycolic acid (PGA)), and described plastic material can around the overmolding at least partially of leg 3921.

Referring now to Figure 133-137, in various embodiments, nail bin (such as, nail bin 4000) can comprise warehouse 4010, multiple staples 4020 that warehouse 4010 comprises compressible ground floor 4011, the second layer 4012 and is positioned in warehouse 4010.See Figure 135, in certain embodiments, each staple 4020 can comprise base portion 4022 and at least one the deformable leg 4023 from base portion 4022 extension.See Figure 133, in at least one embodiment, nail bin 4000 can be positioned between the anvil block 4040 of the end effector of nail bin passage 4030 and surgical stapling device, and wherein the second layer 4012 of warehouse 4010 and/or the base portion 4022 of staple 4020 can be located against nail bin passage 4030.Referring now to Figure 134, in various embodiments, the second layer 4012 can comprise one deck absorbent cotton 4060, and described one deck absorbent cotton is interconnected amongst one another by absorbent cotton support frame 4061.In at least one this type of embodiment, absorbent cotton 4060 and absorbent cotton support frame 4061 can be made up of the plastic material be molded (such as polyglycolic acid (PGA)).Each absorbent cotton 4060 can comprise one or more hole or slit 4062, and described one or more hole or slit can hold the staple lower limb 4021 extended through wherein, as shown in Figure 135 and Figure 136.Each absorbent cotton 4060 also can comprise the accommodation slit 4063 be limited to wherein, and this accommodation slit can hold the base portion 4022 of staple 4020.Refer again to Figure 134, in various embodiments, absorbent cotton 4060 and/or absorbent cotton support frame 4061 can comprise multiple cut, perforation or similar structures, and described multiple cut, perforation or similar structures can allow that absorbent cotton 4060 is disassembled from absorbent cotton support frame 4061 at desired location place.Similarly, see Figure 136, one or more absorbent cotton 4060 such as can be interconnected along the line comprising perforation and/or cut 4064.In use, compressible froth bed 4011 can be located against target tissue T, and warehouse 4010 can be compressed to make anvil block 4040 that staple 4020 can be made to be out of shape by anvil block 4040.When staple 4020 is out of shape, a part for tissue T, ground floor 4011 and absorbent cotton 4060 can be captured in the staple of distortion by the staple lower limb 4021 of each staple 4020.When nail bin passage 4030 moves away from the nail bin 4060 implanted, such as absorbent cotton support frame 4061 can dismantle from absorbent cotton 4060 and/or each absorbent cotton 4060 can from dismantling each other.In some cases, when staple 4020 is out of shape in the above described manner by anvil block 4040, absorbent cotton 4060 from framework 4061 and/or can be dismantled each other.

In various embodiment as herein described, when anvil block moves to make position, the staple of nail bin can be shaped completely by anvil block.Referring now to Figure 138-141, in other embodiment various, the staple of nail bin (such as nail bin 4100) is by moving to the anvil block of make position and making staple be out of shape towards the staple driver system of closed anvil block motion.Nail bin 4100 can comprise compressible warehouse 4110, and compressible warehouse 4110 can be such as made up of foamed materials and multiple staples 4120 of being positioned at compressible warehouse 4110 at least in part.In various embodiments, staple driver system can comprise driver clamper 4160, be positioned at multiple staple driver 4162 of driver clamper 4160 and nail bin dish 4180, and staple driver 4162 can remain in driver clamper 4160 by this nail bin dish.In at least one this type of embodiment, staple driver 4162 can be positioned in the one or more slits 4163 in driver clamper 4160, and wherein the sidewall of slit 4163 can help to boot up staple driver 4162 towards anvil block.In various embodiments, staple 4120 can be supported in slit 4163 by staple driver 4162, and wherein at least one embodiment, when staple 4120 and staple driver 4162 are in its non-firing position, staple 4120 can be arranged in slit 4163 completely.In some other embodiment, when staple 4120 and staple driver 4162 are in its non-firing position, upwards can extending through the opening 4161 of slit 4163 at least partially of staple 4120.Now main see Figure 139, at least one this type of embodiment, the base portion of staple 4120 can be positioned in driver clamper 4160, and the end of staple 4120 can embed in compressible warehouse 4110.In certain embodiments, staple 4120 about 1/3rd height can be positioned in driver clamper 4160, and the height of about 2/3rds of staple 4120 can be positioned in warehouse 4110.See Figure 138 A, at least one embodiment, such as nail bin 4100 also can comprise water impervious integument or film 4111 around warehouse 4110 and driver clamper 4160.

In use, such as nail bin 4100 can be positioned at nail bin passage, and anvil block can move to make position towards nail bin 4100.In various embodiments, when anvil block moves to its make position, anvil block can contact and compress compressible warehouse 4110.In certain embodiments, when anvil block is in its make position, anvil block can not contact staple 4120.In some other embodiment, when anvil block moves to its make position, anvil block can contact the leg of staple 4120 and make staple 4120 be out of shape at least in part.In arbitrary situation in both cases, nail bin 4100 also can comprise one or more sledge 4170, described one or more sledge longitudinally can advance in nail bin 4100, makes sledge 4170 can joint close staple drivers 4162 staple driver 4162 and staple 4120 are moved towards anvil block subsequently.In various embodiments, sledge 4170 can slide between nail bin dish 4180 and staple driver 4162.In the closed embodiment having made the forming process of staple 4120 start of anvil block wherein, staple 4120 moves upward towards anvil block and can complete forming process and make the height that staple 4120 is deformed into its height be shaped completely or at least expects.In the closed embodiment that staple 4120 is out of shape of anvil block wherein, staple 4120 moves upward towards anvil block and can start and complete forming process and make the height that staple 4120 is deformed into its height be shaped completely or at least expects.In various embodiments, sledge 4170 can be advanced to the far-end of nail bin 4100 from the near-end of nail bin 4100, and made before the staple 4120 of the far-end being arranged in nail bin 4100 is shaped completely, the staple 4120 being arranged in the near-end of nail bin 4100 is shaped completely.See Figure 140, in at least one embodiment, sledge 4170 can comprise at least one surface 4711 that is angled or that tilt separately, and at least one surface 4711 that is angled or that tilt described also can promote staple driver 4162 as shown in Figure 141 in staple driver 4162 slid underneath.

In various embodiments, to being described further above, staple 4120 can be formed, so as by tissue T at least partially with the compressible warehouse 4110 of nail bin 4100 be captured in wherein at least partially.After staple 4120 is shaped, the anvil block of surgical stapling device and nail bin passage 4130 can move away from the nail bin 4100 implanted.In various scenarios, storehouse dish 4180 can jointing nail storehouse passage 4130 in a position-stable manner, and wherein as a result, when nail bin passage 4130 is pulled away from the warehouse 4110 implanted, storehouse dish 4180 can be dismantled from compressible warehouse 4110.Refer again to Figure 138, in various embodiments, storehouse dish 4180 can comprise relative sidewall 4181, and this warehouse 4110 can be positioned between relative sidewall 4181 removedly.In at least one this type of embodiment, compressible warehouse 4110 can be compressed between sidewall 4181, warehouse 4110 during use can be remained between sidewall 4181 removedly and when storehouse dish 4180 is pulled away from, warehouse 4110 departs from releasedly from storehouse dish 4180.In at least one this type of embodiment, driver clamper 4160 can be connected to storehouse dish 4180, and make when storehouse dish 4180 is removed from operative site, driver holder 4160, driver 4162 and/or sledge 4170 can remain in storehouse dish 4180.In some other embodiment, driver 4162 can be penetrated and be stayed in operative site from driver clamper 4160.In at least one this type of embodiment, each driver 4162 can by the polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL that sells with trade name Monocryl), the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL etc. can the material of bio-absorbable be formed.In various embodiments, driver 4162 can be attached to staple 4120, makes driver 4162 be deployed with staple 4120.In at least one this type of embodiment, each driver 4162 can comprise the groove of the base portion that such as can hold staple 4120, and wherein at least one embodiment, described groove can hold staple basis with press-fit and/or snap fit.

In certain embodiments, to being described further above, driver clamper 4160 and/or sledge 4170 can coil 4180 from storehouse and be penetrated.In at least one this type of embodiment, sledge 4170 can coil between 4180 and driver clamper 4160 in storehouse and slide, make when sledge 4170 advances upwards to drive staple driver 4162 and staple 4120, sledge 4170 also can make driver clamper 4160 move upward to outside storehouse dish 4180.In at least one this type of embodiment, driver clamper 4160 and/or sledge 4170 can by the polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL that sell with trade name Monocryl), the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL etc. can the material of bio-absorbable be formed.In various embodiments, sledge 4170 can integrally form and/or be attached to driving rod or cutting element, and described driving rod or cutting element promote sledge 4170 through nail bin 4100.In this type of embodiment, sledge 4170 also can not be kept together with surgical stapling device by injection from storehouse dish 4180, and is not attached in other embodiment of driving rod at sledge 4170, and sledge 4170 can be stayed in operative site.In any case, to being described further above, the compressibility tolerable of warehouse 4110 uses thicker nail bin in the end effector of surgical stapling device, this is because when the anvil block of stiching instrument closes, warehouse 4110 is compressible or collapse.In certain embodiments, as the staple when anvil block closes by the result of being out of shape at least in part, higher staple (such as have about 0.18 " staple of staple height) can be used; such as wherein about 0.12 " staple height can be positioned in compressible stratum 4110, and wherein compressible stratum 4110 can have about 0.14 " uncompressed height.

Referring now to Figure 142-145, in various embodiments, nail bin (such as, nail bin 4200) can comprise compressible warehouse 4210, be arranged in multiple staples 4220 of compressible warehouse 4210 and the lateral supports 4234 of multiple flexibility.Referring now to Figure 143, in various embodiments, it is middle with nail bin passage 4230 that nail bin 4200 can be positioned in anvil block 4240, and wherein at least one embodiment, lateral support component 4234 can be attached to nail bin passage 4230.When anvil block 4240 moves downward compress warehouse 4210 and make staple 4220 be out of shape at least in part, as shown in Figure 144, the sidepiece of warehouse 4210 laterally can expand and outwards promote lateral support component 4234.In at least one this type of embodiment, lateral support component 4234 can be attached to warehouse 4210, and when warehouse 4210 laterally expands as mentioned above, lateral support component 4234 can be dismantled, as shown in Figure 144 from warehouse 4210.In at least one embodiment, lateral support component 4234 can utilize at least one binding agent (such as, fibrin and/or protein hydrogel) to adhere to warehouse 4210.To similar, when anvil block 4240 closes, can staple 4220 be only partly made to be out of shape above, wherein by such as advancing one or more sledge 4270 to complete the shaping of staple 4220 through nail bin 4200 shown in Figure 145.Referring now to Figure 147 and Figure 148, in various embodiments, sledge 4270 can be cut component 4280 is advanced to nail bin 4200 far-end from the near-end of nail bin 4200.In at least one this type of embodiment, cutting element 4280 can comprise cutting element or cutter 4283, and described cutting element or cutter 4283 can advance through tissue T and/or compressible warehouse 4210.In certain embodiments, cutting element 4280 can comprise cam member 4282, and cam member 4282 can advance along the outer surface of jaw 4230 and 4240 and be moved by described jaw or be held in place.In various embodiments, as result above, staple 4220 can be shaped to its net shape while tissue T is cut open or at least substantially simultaneously.In at least one this type of embodiment, sledge 4270 can be positioned in distally relative to cutter 4283, make only organize part of advancing sewed up completely time tissue T be just cut open.

Refer again to Figure 147 and Figure 148, in various embodiments, sledge 4270 can comprise independent slidable member, and described slidable member is advanced by cutting element 4280 together.In at least one this type of embodiment, sledge 4270 can be accommodated in nail bin 4200, and cutting element 4280 can be advanced in nail bin 4200 by percussion rod 4281, makes cutting element 4280 engage sledge 4270 and distally advances sledge 4270.In certain embodiments, each sledge 4270 can be interconnected.In any one situation in both cases, each sledge 4270 can comprise angled surface or cam 4271, and this angled surface or cam can be lifted at the staple 4220 of alignment in staple row.In certain embodiments, angled surperficial 4271 can be formed as overall with cutting element 4280.Refer again to Figure 147 and Figure 148, in at least one embodiment, each staple 4200 can comprise base portion and bizet 4229, at least one deformable member extends from base portion, and bizet 4229 overmolding to the base portion of staple 4200 and/or deformable member go up at least partially and/or around at least partially described and locate.In various embodiments, such as this bizet 4229 can by sledge 4270 Direct driver.More particularly, in at least one embodiment, the bizet 4229 of staple 4220 can make when the no-fix between angled surperficial 4271 and bizet 4229 of sledge 4270 has staple driver, and angled surperficial 4271 can directly contact bizet 4229 and slide below bizet 4229.In this type of embodiment, the surface that each bizet 4229 includes the angled of at least one cooperation or tilts, the surface that is angled or that tilt of at least one cooperation described can be engaged by angled surperficial 4271 of sledge 4270, make when sledge 4270 is in staple 4220 slid underneath, the angled surface of cooperation can upwards drive staple 4220.

Referring now to Figure 146, in various embodiments, nail bin (such as, nail bin 4300) multiple staples 4320 that can comprise compressible body 4310 and be positioned in compressible body 4310.To similar above, nail bin 4300 can comprise flexible lateral supports 4334, and the lateral supports of this flexibility can be attached to nail bin passage and/or adhere to compressible body 4310.Except person mentioned above, flexible lateral supports 4334 can be connected together by one or more pillar or connecting elements 4335, and lateral supports 4334 can keep together by described one or more pillar or connecting elements 4335.In use, connecting elements 4335 can prevent or at least suppress lateral supports 4334 to be dismantled from warehouse 4310 prematurely.In certain embodiments, connecting elements 4335 can after nail bin 4300 be compressed by anvil block, and lateral supports 4334 keeps together by this connecting elements.In this type of embodiment, lateral supports 4334 can resist lateral expansion or the displacement of the sidepiece of warehouse 4310.In certain embodiments, cutting element (such as cutting element 4280) can work as cutting element 4280 when distally moving in warehouse 4310, and cutting element can crosscut connecting elements 4335.In at least one this type of embodiment, cutting element 4280 distally can promote one or more sledge (such as sledge 4270), to make staple 4320 be shaped against anvil block.The bootable cutting edge 4283 of sledge 4270, makes cutting element 4280 can not crosscut connecting elements 4335, to be shaped completely or till being at least shaped to Desired Height until the staple 4320 of contiguous connecting elements 4335.In various scenarios, connecting elements 4335 cooperates with lateral supports 4334 lateral movement that can prevent or at least reduce compressible warehouse 4310 prevent simultaneously or at least reduce the lateral movement of the staple 4320 being positioned at warehouse 4310.In this case, staple 4320 can be held in place by connecting elements 4335, until staple 4320 is out of shape, and connecting elements 4335 can cut the sidepiece discharging warehouse 4310 subsequently.As mentioned above, lateral supports 4334 can be connected to nail bin passage, and therefore after nail bin 4300 is implanted, lateral supports 4334 can be removed from operative site together with nail bin passage.In certain embodiments, lateral supports 4334 can be made up of implantable material and can be left in operative site.In at least one embodiment, connecting elements 4335 can be positioned in the middle of warehouse 4310 and tissue T, and at connecting elements 4335 from after lateral supports 4334 is dismantled, connecting elements 4335 can keep in patients with implantation body.In at least one this type of embodiment, connecting elements 4335 can be made up of implantable material, and in certain embodiments, connecting elements 4335 can be such as made up of the material identical with lateral support component 4334.In various embodiments, connecting elements 4335 and/or lateral supports 4334 can by the polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL that sell with trade name Monocryl), flexible can the material of bio-absorbable being formed such as the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL.In various embodiments, connecting elements can comprise the material sheet for connecting each lateral supports 4334.In certain embodiments, nail bin can comprise the end face extending through warehouse 4310 connecting elements and around the lower surface of warehouse 4310 and the connecting elements extended.

Referring now to Figure 149, in various embodiments, nail bin can comprise staple (such as, staple 4420), and described staple can comprise the wire rod portion be inserted in crown moieties.In at least one embodiment, wire rod portion can be made up of metal (such as titanium and/or rustless steel) and/or plastics (such as PPDO (PDS) and/or polyglycolic acid (PGA)).In at least one embodiment, crown moieties can be made up of metal (such as titanium and/or rustless steel) and/or plastics (such as PPDO (PDS) and/or polyglycolic acid (PGA)).In certain embodiments, the wire rod portion of each staple 4420 can comprise base portion 4422 and the deformable leg 4421 from base portion 4422 extension, wherein the crown moieties of each staple 4420 can comprise bizet 4429, and bizet 4429 can hold base portion 4422 at least partially wherein.Referring now to Figure 150 A-150C, for assembling each several part of each staple 4420, the leg 4421 in wire rod portion can be inserted in the opening 4426 in bizet 4429, leg 4421 can guide in base portion chamber 4427 by its split shed 4426.Wire rod portion also can be inserted in bizet 4429, makes leg 4421 leave base portion chamber 4427 and the base portion 4422 in wire rod portion enters in base portion chamber 4427.In at least one this type of embodiment, base portion chamber 4427 can make when base portion 4422 enters base portion chamber 4427, and wire rod portion rotates in bizet 4429, with make staple lower limb 4421 point to upwards or at least essentially towards upper direction.Refer again to Figure 149, in various embodiments, bizet 4429 can comprise from hole 4425, can hold staple lower limb 4421 wherein from hole 4425.

In various embodiments, to being described further above, surgical stapling device can comprise sledge 4470, and sledge 4470 can traverse nail bin 4400 and nail bin passage 4430 and the staple 4420 held in anvil block motion warehouse 4410.In various scenarios, sledge 4470 can from the proximal movement of nail bin passage 4430 to the far-end of storehouse passage 4430, to implant warehouse 4410 and staple 4420.In some cases, sledge 4470 regracting or turn back to the near-end of storehouse passage 4430, and another nail bin 4400 can be inserted in storehouse passage 4430.Once new nail bin 4400 is positioned in storehouse passage 4430, then sledge 4470 can distally advance again.In various embodiments, surgical stapling device can comprise one or more latch-up structure, and described one or more latch-up structure can no-fix have when new nail bin 4400 and prevents sledge 4470 from again distally advancing in storehouse passage 4430.Refer again to Figure 149, at least one this type of embodiment, nail bin passage 4430 can comprise locking shoulder 4439, and this locking shoulder can prevent from or at least limit sledge 4470 distally moving.More particularly, unless sledge 4470 can upwards be lifted beyond shoulder 4439 by lift structure 4428 by sledge 4470 at least in part, otherwise sledge 4470 adjoins shoulder 4439, extends between the recent side staple 4420 of lift structure 4428 such as in nail bin 4400.In other words, when there is not recent side staple 4420 in new nail bin 4400, sledge 4470 cannot advance.Therefore, when there is not any nail bin 4400 when there is used nail bin 4400 in storehouse passage 4430 or in storehouse passage 4430, sledge 4470 cannot advance in storehouse passage 4430.

Referring now to Figure 151, to being described further above, nail bin (such as, nail bin 4500) can be positioned in nail bin passage 4530 and can to comprise compressible warehouse 4510, is positioned at multiple staples 4520 in warehouse 4510 and storehouse dish or keeper 4580.In various embodiments, compressible warehouse 4510 can comprise outer 4511 and internal layer 4512, and wherein at least one embodiment, outer 4511 can surround internal layer 4512 in a sealing fashion.In at least one this type of embodiment, outer 4511 can extend between internal layer 4512 and storehouse coil 4580.In some other embodiment, outer 4511 can only partly around internal layer 4512, and at least one this type of embodiment, outer 4511 and storehouse dish 4580 can surround collaboratively or at least substantially surround internal layer 4512.In various embodiments, to being described further above, staple 4520 can coil 4580 supports by storehouse, and wherein storehouse dish 4580 can comprise one or more staple support passage that can support staple 4520.In certain embodiments, storehouse dish 4580 can be attached to warehouse 4510, and wherein at least one this type of embodiment, warehouse 4510 laterally can be compressed between the relative sidewall that storehouse coils 4580.In various embodiments, the sidewall of storehouse dish 4580 can laterally support warehouse 4510, and at least one this type of embodiment, storehouse dish 4580 can comprise and extends upwardly to one or more wall warehouse 4510 or fin 4582 from bottom support 4583.In at least one this type of embodiment, can comprise one or more slit or passage in warehouse 4510, described one or more slit or passage can hold wall 4582 and/or interlock with wall 4582.In various embodiments, wall 4582 partly or almost can extend through warehouse 4510 fully.In at least one this type of embodiment, the first row that wall 4582 can be formed in staple 4520 and staple 4520 are formed between volume second row and extend longitudinally through nail bin 4500.

In various embodiments, warehouse 4510 and/or storehouse dish 4580 can comprise cooperation and retain structure, and described cooperation reservation structure can be coiled between 4580 and warehouse 4510 in storehouse and be provided snap fit.In certain embodiments, nail bin 4500 can be positioned in storehouse passage 4530, makes storehouse dish 4580 locate against storehouse passage 4530 and/or be attached to storehouse passage 4530.In at least one embodiment, storehouse dish 4580 can removably be connected to storehouse passage 4530, and make after nail bin 4500 is compressed by anvil block 4540 and staple 4520 is out of shape, storehouse dish 4580 can be dismantled from storehouse passage 4530 and can be implanted together with warehouse 4510.In at least one this type of embodiment, storehouse dish 4580 can by the polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL that sells with trade name Monocryl), the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL etc. can the material of bio-absorbable be formed.In certain embodiments, surgical stapling device also can comprise firing lock and/or driver, described firing lock and/or driver can be coiled in storehouse at nail bin passage 4530 and driving lower surface middle slip on 4580, and described driving lower surface can promote or penetrate storehouse dish 4580 from storehouse passage 4530.In certain embodiments, warehouse 4510 removably can be connected to storehouse dish 4580, and make after nail bin 4500 is compressed by anvil block 4540 and staple 4520 is out of shape, warehouse 4510 can coil 4580 dismountings from storehouse.In at least one this type of embodiment, storehouse dish 4580 can keep engaging storehouse passage 4530 in a position-stable manner, makes storehouse coil 4580 and is removed from operative site together with storehouse passage 4530.In certain embodiments, surgical stapling device also can comprise firing lock and/or driver, described firing lock and/or driver can at nail bin dish 4580 and driving lower surface middle slip on warehouse 4510, and described driving lower surface can be coiled from storehouse 4580 and be promoted or injection warehouse 4510.In at least one this type of embodiment, nail bin 4500 also can comprise the staple driver be positioned in the middle of storehouse dish 4580 and staple 4520, and make when firing lock distally slides, staple driver and staple 4520 can be driven upwardly towards anvil block.In at least one this type of embodiment, staple driver can embed in compressible warehouse 4510 at least in part.

In various embodiments, to similar above, nail bin 4500 can comprise latch-up structure, and described latch-up structure can prevent from or at least limit cutting element distally moving, unless be positioned with the nail bin 4500 of not pulling the trigger in nail bin passage 4530.In certain embodiments, nail bin dish 4580 can comprise such as upwards promoting cutting element and make it exceed the surface of locking surface in nail bin passage 4530.Do not exist in storehouse passage 4530 wherein in the situation of the nail bin 4500 comprising storehouse dish 4580, cutting element cannot advance.In at least one embodiment, the recent side staple in nail bin 4500 and/or other suitable staple any can comprise lifting surface, and cutting element can be lifted beyond locking surface by described lifting surface completely.Over and above what is described above or substitute mentioned above, each several part of nail bin 4500 can be made up of the material with different colours.In this type of embodiment, surgeon can visually identify the nail bin when existing in nail bin passage 4530 and do not pull the trigger and/or pull the trigger.In at least one this type of embodiment, the skin 4511 of warehouse 4510 can have the first color, and storehouse dish 4580 can have the second color, and nail bin passage 4530 can have the 3rd color.If surgeon sees the first color, then there is the storehouse 4500 of not pulling the trigger in surgeon known road nail bin passage 4530; If surgeon sees the second color, then there is the storehouse 4500 of percussion in surgeon known road nail bin passage 4530 and need remaining storehouse dish 4580 to remove; And if surgeon sees the 3rd color, then surgeon can know any part not remaining with nail bin 4500 in storehouse passage 4530.

Referring now to Figure 152, in various embodiments, nail bin (such as, nail bin 4600) multiple staples 4620 that can comprise compressible and implantable warehouse 4610 and be positioned in warehouse 4610.Warehouse 4610 can comprise outer 4611 and internal layer 4612.In certain embodiments, internal layer 4612 can comprise the multiple pits (such as pit or chamber 4615) be limited to wherein, and described multiple pit can be conducive to collapsing of warehouse 4610.In at least one this type of embodiment, internal layer 4612 can comprise dot matrix that is corrugated or Nidus Vespae configuration, and described dot matrix can bear compression stress or pressure, as long as this compression stress or pressure are no more than specific threshold value.When not exceeding threshold value, internal layer 4612 can about applied compression stress or pressure with rate deformation that is linear or at least substantial linear.After compression stress or pressure exceed threshold value, internal layer 4612 can collapse under pressure suddenly due to compressive load to large deflection and collapses or bend.In various embodiments, the dot matrix of internal layer 4612 can be made up of multiple subgrade 4612a that can connect together.In at least one embodiment, each subgrade 4612a can comprise multiple ditch of replacing and ridge or ripple, and described multiple ditch replaced can align with ridge with the ditch replaced of adjacent sublayers 4612a with ridge or ripple.In at least one this type of embodiment, the ditch of the first subgrade 4612a can be oriented to adjacent with the ridge of the second subgrade 4612a; Similarly, the ridge of the first subgrade 4612a can be oriented to adjacent with the ditch of the second subgrade 4612a.In various embodiments, adjacent subgrade 4612a adheres to and/or adheres to outer 4611 mutually by least one binding agent (such as, fibrin and/or protein hydrogel).Figure 153 illustrates and to have collapsed and staple 4620 has been out of shape to catch against warehouse 4610 and nail bin 4600 after keeping tissue T at warehouse 4610.

Referring now to Figure 154-156, in various embodiments, nail bin (such as, nail bin 4700) multiple staples 4720 that can comprise compressible and implantable warehouse 4710 and be positioned in warehouse 4710.To similar above, warehouse 4710 can comprise outer 4711 and internal layer 4712, and wherein internal layer 4712 can comprise multiple subgrade 4712a.Same to similar above, each subgrade 4712a can comprise ditch 4717 alternately and ridge 4718, and the described zastrugi replaced can align to limit pit or chamber 4715 betwixt mutually.In at least one this type of embodiment, ditch 4717 and/or ridge 4718 can along be parallel to each other and/or the Axis Extension that is parallel to longitudinal axis 4709.In various embodiments, staple 4720 can alignment in multiple staple row, described multiple staple row can along be parallel to each other and/or the Axis Extension that is parallel to longitudinal axis 4709.Refer again to Figure 152 and Figure 153, in various alternative embodiment, the staple 4620 held in warehouse 4600 can along Axis Extension, described axis across or the axis that limits perpendicular to ditch and the ridge by subgrade 4612a.Refer again to Figure 154-156, staple 4720 can extend across ditch 4717 and ridge 4718, and staple 4720 can remain in warehouse 4710 by the frictional force wherein between staple 4720 and subgrade 4712a.In certain embodiments, described multiple subgrade 4712a can be made up of backing material and/or plastic material (such as PPDO (PDS) and/or polyglycolic acid (PGA)), and staple 4720 can such as can be remained on upright orientation and/or staple 4720 is held in and relative to each other align as shown in Figure 154 and Figure 155 by described backing material and/or plastic material.Figure 156 illustrates and to collapse and staple 4720 is out of shape to catch against warehouse 4710 and nail bin 4700 after keeping tissue T at warehouse 4710.

Refer again to Figure 154-156, in various embodiments, when warehouse 4710 is by compression, warehouse 4710 can flexibly or with elastic type be collapsed.In at least one this type of embodiment, when warehouse 4710 is by compression, the ripple that ditch 4717 and ridge 4718 are formed in each subgrade 4712a can by graduation or at least substantially by graduation, and this can make the chamber 4715 limited between ditch 4717 and ridge 4718 collapse or at least substantially collapse.In various scenarios, after removing compression stress or pressure from warehouse 4710, at least some part of described warehouse or warehouse can flexibly or with elastic type stretch again.In at least one this type of embodiment, when warehouse 4710 is by compression, connection between the ditch 4717 of adjacent sublayers 4712a and ridge 4718 can keep not impaired or at least substantially not impaired, make after removing compression stress from warehouse 4710, subgrade 4712a can be biased ditch 4717 and itself makes it away from each other with ridge 4718 and therefore make warehouse 4710 again stretch at least in part.In certain embodiments, when warehouse 4710 by compression time, its can plastic manner distortion or by conquassation, therefore after removing compression stress or pressure from warehouse 4710, warehouse 4710 can not stretch again.Referring now to Figure 157, in certain embodiments, nail bin (such as nail bin 4800) can comprise can the warehouse 4810 of conquassation, this warehouse of conquassation can comprise outer 4811 and internal layer 4812, wherein internal layer 4812 can comprise dot matrix that is corrugated, Nidus Vespae configuration, and described dot matrix has the multiple pit or chamber 4815 that limit wherein.In various embodiments, that the wall of dot matrix limiting internal layer 4812 can comprise one or more reduction or thin cross section 4819, described one or more reduction or thin cross section 4819 can the wall of tolerance bound fixed point battle array be broken by during compression at warehouse 4810.In this case, when nail bin 4800 is implanted, warehouse 4810 can by conquassation.

Referring now to Figure 158-160, in various embodiments, nail bin (such as, nail bin 4900) such as can comprise warehouse 4910, and warehouse 4910 comprises skin 4911 and is positioned at the multiple crushable members 4912 between the top and bottom of outer 4911.Main see Figure 158 and Figure 159, nail bin 4900 also can comprise multiple staple 4920, and wherein each staple 4920 can be positioned in crushable member 4912.More particularly, each crushable member 4912 can comprise Part I 4912a, Part II 4012b and Part III 4012c, described Part I 4912a, Part II 4012b and Part III 4012c can limit chamber 4915 collaboratively wherein, and described chamber can hold staple 4920.In use, to being described further above, nail bin 4900 can be positioned in nail bin passage also can apply compression stress to compress warehouse 4910 to tissue contacting surface 4919.When tissue contacting surface 4919 moves downward, crushable member 4912 can be collapsed.In this case, the Part II 4912b of each crushable member 4912 can be collapsed in corresponding Part I 4912a; Similarly, the Part III 4912c of each crushable member 4912 can be collapsed in corresponding Part II 4912b.When warehouse 4910 is compressed and crushable member 4912 is collapsed, be arranged in staple 4920 deformable of crushable member 4912, as shown in Figure 160.In various embodiments, the Part II 4912b of each crushable member 4912 can with engaging corresponding Part I 4912a with friction and/or being press-fitted in corresponding Part I 4912a, make once exceed the retention for being remained on by Part I 4912a and Part II 4912b in its extended position (Figure 159) to the compression stress of crushable member 4912 applying, then Part I 4912a and Part II 4912b can start relative to each other to slide.Similarly, the Part III 4912c of each crushable member 4912 can with engaging corresponding Part II 4912b with friction and/or being press-fitted in corresponding Part II 4912b, make once exceed the retention for being remained on by Part II 4912b and Part III 4912c in its extended position (Figure 159) to the compression stress of crushable member 4912 applying, then Part II 4912b and Part III 4912c can start relative to each other to slide.

In many embodiments as herein described, in nail bin, multiple staple can be comprised.In various embodiments, this staple can by being deformed into U-shaped configuration substantially and the metal wire rod with two staple lower limbs is formed.Other embodiment that wherein staple can comprise different configuration (be such as joined together and have two or more wire rods of three or more staple lower limbs) can be dreamed up.In various embodiments, the one or more wire rods for the formation of staple can comprise round or at least substantially round cross section.In at least one embodiment, staple wire can comprise other suitable cross section any, the such as cross section of square and/or rectangle.In certain embodiments, staple can be made up of plastic wire.In at least one embodiment, staple can be made up of the metal wire rod being coated with plastics.In various embodiments, substituting except staple or as staple, storehouse can comprise the securing member of any proper types.In at least one this type of embodiment, this securing member can comprise pivotable arm, and described arm can be folded when being engaged by anvil block.In certain embodiments, can utilize and be divided into two-part securing member.In at least one this type of embodiment, nail bin can comprise multiple first fastener portion, and anvil block can comprise multiple second fastener portion; When anvil block is compressed against nail bin, the second fastener portion is connected to the first fastener portion.In certain embodiments, as mentioned above, sledge or driver can be advanced in nail bin to complete the forming process of staple.In certain embodiments, sledge or driver can be advanced in anvil block, engage with relative nail bin and staple or the securing member that is arranged in nail bin to make one or more formed parts move downwardly to.

In various embodiment as herein described, nail bin can comprise four staple rows stored therein.In at least one embodiment, described four staples row can be configured to two inner side staple rows and two outside staple rows.In at least one this type of embodiment, inner side staple row and outside staple are arranged on the first side of cutting element or the cutter slit that can be positioned in nail bin; Similarly, inner side staple row and outside staple row can be positioned on the second side of cutting element or cutter slit.In certain embodiments, nail bin can not comprise cutting element slit; But substituting as nail bin slit, this nail bin can comprise the specified portions can cut by cutting element.In various embodiments, can staple row in each inner side be arranged in nail bin, make itself and cutting element slit equidistantly or at least substantially equidistantly spaced apart.Similarly, can staple row in each outside be arranged in nail bin, make itself and cutting element slit equidistantly or at least substantially equidistantly spaced apart.In various embodiments, nail bin can comprise and being stored in nail bin greater or less than four staples row.In at least one embodiment, nail bin can comprise six staple rows.In at least one this type of embodiment, nail bin can comprise three staple rows on the first side of cutting element slit, and on the second side of cutting element slit, comprise three staple rows.In certain embodiments, nail bin can comprise odd number staple row.Such as, nail bin can comprise two staple rows on the first side of cutting element slit, and on the second side of cutting element slit, comprise three staple rows.In various embodiments, staple row can comprise the staple with identical or at least substantially the same unshaped staple height.In some other embodiment, one or more staple row can comprise the staple from other staple with different unshaped staple heights.In at least one this type of embodiment, such as, staple on the first side of cutting element slit can have the first unshaped height, and the staple on the second side of cutting element slit can have the second unshaped height, described second unshaped height is different from described first height.

Referring now to Figure 161 A-161D, in various embodiments, the end effector of surgical stapling device can comprise: storehouse attachment (such as, nail bin passage 5030); Fastener cartridge (such as, nail bin 5000), is arranged in nail bin passage 5030 removedly; And jaw 5040, relatively locate with nail bin 5000 and nail bin passage 5030.Nail bin 5000 can comprise compressible body 5010 and multiple staple 5020 and/or be arranged in other suitable securing member any of compressible body 5010 at least in part.In at least one this type of embodiment, the leg 5021 that each staple 5020 can comprise base portion 5022 and upwards extend from base portion 5022, wherein leg 5021 can be embedded in warehouse 5010 at least partially.In various embodiments, compressible body 5010 can comprise end face or tissue contacting surface 5019 and lower surface 5018, and wherein lower surface 5018 can be located against the stayed surface 5031 of nail bin passage 5030 and be supported by stayed surface 5031.To similar above, stayed surface 5031 such as can comprise the multiple support slit 5032(Figure 161 D be limited to wherein), described multiple support slit 5032 can hold and support the base portion 5022 of staple 5020.In various embodiments, the end effector of surgical stapling device also can comprise and retain matrix (such as retaining matrix 5050), and described reservation matrix can engage staple 5020 and is captured in by tissue and retain between matrix and staple 5020.In at least one this type of embodiment, retaining matrix 5050 can be installed to jaw 5040 removedly.In use, once nail bin 5000 is positioned in nail bin passage 5030, then jaw 5040 and the reservation matrix 5050 that is attached to jaw 5040 can move towards nail bin 5000 and nail bin passage 5030.In at least one embodiment, jaw 5040 can move downward along axis 5099, makes when jaw 5040 closes, and jaw 5040 and nail bin passage 5030 remain parallel to each other or at least substantially parallel.More particularly, in at least one this type of embodiment, jaw 5040 can be closed, and to make when jaw 5040 moves towards nail bin 5000, retains the tissue contacting surface 5051 of matrix 5050 and to be parallel to or at least substantially parallel to the tissue contacting surface 5019 of nail bin 5000.

Referring now to Figure 161 A, in various embodiments, retain matrix 5050 and can be detachably fixed to jaw 5040, make, when retaining matrix 5050 and being attached to jaw 5040, to retain between matrix 5050 and jaw 5040 and there is very little (if any) relative motion.In at least one embodiment, jaw 5040 can comprise one or more reservation structure, and reservation matrix 5050 can be held in place by described one or more reservation structure.In at least one this type of embodiment, retaining matrix 5050 can snap fit and/or be press-fitted in jaw 5040.In certain embodiments, can utilize at least one binding agent that reservation matrix 5050 is adhered to jaw 5040.In any case, jaw 5040 is moveable in the position wherein retaining matrix 5050 contact tissue T and the tissue T location against the tissue contacting surface 5019 of nail bin 5000.When tissue T is positioned to against nail bin 5000 by jaw 5040, the compressible body 5010 of described nail bin 5000 can be compressed by jaw 5040 or can not by its compression.In any one situation in both cases, in various embodiments, the leg 5021 of staple 5200 can not pass tissue contacting surface 5019 projection of nail bin 5000, as shown in Figure 161 A.In addition, equally as shown in Figure 161 A, when retaining matrix 5050 and not engaging staple 5020, jaw 5040 can keep tissue T against compressible body 5010.This type of embodiment tolerable surgeon repeatedly open and close jaw 5040, such as to obtain the expected location of end effector in operative site when not damaging tissue T.But contemplate other embodiment, wherein staple end 5023 can from tissue contacting surface 5019 projection before warehouse 5010 is compressed by anvil block 5040.Referring now to Figure 161 B, once end effector is located aptly, then jaw 5040 can move downward towards nail bin passage 5030, and compressible body 5010 is compressed by anvil block 5040, and tissue contacting surface 5019 is pushed down relative to staple 5020.When tissue contacting surface 5019 is pushed down, the end 5023 of staple lower limb 5021 can piercing tissue contact surface 5019 piercing tissue T at least partially.In this case, retain matrix 5050 and can be positioned in above staple 5020, make to retain the retaining holes 5052 of matrix 5050 and align with the end 5023 of staple lower limb 5021 or at least substantial alignment.

Referring now to Figure 161 C, when promoting downwards to retain matrix 5050 along axis 5099, the staple lower limb 5021 of staple 5020 can enter in retaining holes 5052.In various embodiments, staple lower limb 5021 can engage the sidewall of retaining holes 5052.In certain embodiments, as explained in more detail below, retain matrix 5050 can comprise and to extend in retaining holes 5052 and/or around one or more holding members of retaining holes 5052, described one or more holding member can engage staple lower limb 5021.In any one situation in both cases, staple lower limb 5021 can be maintained in retaining holes 5052.In various scenarios, the end 5023 of staple lower limb 5021 can to enter in retaining holes 5052 and can sidewall with engaging holding member and/or hole 5052 with friction.When retaining the base portion 5022 of matrix 5050 towards staple 5020 and being pushed, staple lower limb 5021 can slide relative to sidewall and/or holding member.As result above, staple lower limb 5021 and retain between matrix 5050 and can produce force of sliding friction, wherein this force of sliding friction can be resisted and retain matrix 5050 and be inserted in staple 5020.In various embodiments, when retaining matrix 5050 along staple lower limb 5021 slide downward of staple 5020, the force of sliding friction retained between matrix 5050 and staple 5020 can be constant or at least substantial constant.In certain embodiments, due to such as staple lower limb 5021, retaining holes 5052 and/or to extend in retaining holes 5052 and/or around the holding member change in size and geometry of retaining holes 5052; When retaining matrix 5050 along staple lower limb 5021 slide downward, force of sliding friction can increase and/or reduce.In various embodiments, the compressible body 5010 of nail bin 5000 also can resist retain matrix 5050 insert in staple 5020.More particularly, compressible body 5010 can be such as made up of elastomeric material, and described elastomeric material can apply drag to reservation matrix 5050; When compressible body 5010 is increased by the distance compressed, described drag increases.In at least one this type of embodiment, increase drag being produced due to warehouse 5010 can be proportional or at least substantial linear ground is proportional linearly by the distance compressed with warehouse 5010.In certain embodiments, the increase due to warehouse 5010, drag being produced can be proportional by the geometric distance ground compressed with warehouse 5010.

In various embodiments, to being described further, enough percussion forces can be applied, to overcome above-mentioned drag and frictional force to jaw 5040 and reservation matrix 5050 above.In use, retain matrix 5050 and can be seated to any suitable depth relative to staple 5020.In at least one embodiment, retaining matrix 5050 can be seated to a depth relative to the base portion 5022 of staple 5020, so as two-layer or more layer tissue to be secured together and in tissue generation compression stress or pressure.In various scenarios, the system tolerable surgeon that retains matrix 5050 and staple 5020 selects compression stress or the pressure applied tissue size by the degree of depth selected to retain matrix 5050 and be placed is comprised.Such as, retain matrix 5050 to be pushed down towards the staple basis 5022 of staple 5020, be seated to until retaining matrix 5050 and support the bottom of slit 5032 till certain depth 5011, the wherein more shallow degree of depth 5011 can produce the higher compression stress or pressure that are applied to tissue T, and the darker degree of depth 5011 can produce the lower compression stress or pressure that are applied to tissue T.In various embodiments, being applied to the compression stress of tissue T or pressure can with to retain the degree of depth 5011 that matrix 5050 be placed proportional or at least substantial linear ground is proportional linearly.In various scenarios, the compression stress or the pressure that are applied to tissue T can be depending at the thickness retaining the tissue T between matrix 5050 and nail bin 5020.More particularly, for given distance 5011, the existence of thicker tissue T can compare the existence higher compression stress of generation or the pressure of thin tissue T.

In various scenarios, to being described further above, surgeon's adjustable retains the degree of depth that is placed of matrix 5050 to cause being positioned at the thicker and/or thinner tissue of end effector, and applies specific or predetermined pressure in the mode had nothing to do with tissue thickness to tissue T.Such as, when fastening thinner tissue T, reservation matrix 5050 can be seated to the more shallow degree of depth 5011 by surgeon, or is seated to the darker degree of depth 5011 when the tissue T of fastening thicker, to reach identical or at least substantially the same compression stress in tissue.In certain embodiments, to being described further above, surgeon optionally determines the size to the compression stress applied in the tissue T retained between matrix 5050 and nail bin 5010.In various scenarios, reservation matrix 5050 can engage with staple 5020 by surgeon, and is positioned to the base portion 5022 of staple 5020 at a distance of the first distance by reservation matrix 5050, to organizing applying first compression pressure.Alternatively, reservation matrix 5050 can be positioned to base portion 5022 at a distance of second distance by surgeon, and described second distance is shorter than described first distance, to apply to tissue the second compression pressure being greater than the first pressure.Alternatively, reservation matrix 5050 can be positioned to base portion 5022 at a distance of the 3rd distance by surgeon, and described 3rd distance is shorter than described second distance, to apply to tissue the 3rd compression pressure being greater than the second pressure.In various embodiments, comprise the fastening system retaining matrix 5050 and staple 5020 and can allow that surgeon applies the compression pressure of wide region to target tissue.

Referring now to Figure 161 D, in various embodiments, staple lower limb 5021 can be inserted into through retaining matrix 5050, makes staple lower limb top 5023 extend to the top face retaining matrix 5050.Refer again to Figure 161 C, at least one embodiment, jaw 5040 also can comprise the mesopore 5042 be limited to wherein, and this mesopore can work as staple lower limb end 5023 through holding staple lower limb end 5023 during the retaining holes 5052 retained in matrix 5050.In at least one this type of embodiment, mesopore 5042 can align with retaining holes 5052, makes leg 5021 not contact jaw 5040.In various embodiments, mesopore 5042 can have enough degree of depth, no matter make why to retain the distance that is placed of matrix 5050, and staple lower limb 5021 all not contact jaws 5040.Referring now to Figure 161 D, after reservation matrix 5050 to engage with staple 5020 and is placed to desired location, nail bin passage 5030 and jaw 5040 can move away from tissue T.More particularly, nail bin passage 5030 can be dismantled from implanted nail bin 5000, and anvil block 5040 can be dismantled from implanted reservation matrix 5050.When jaw 5040 away from reservation matrix 5050 move and staple support member 5032 moves away from staple basis 5022 time, although jaw 5040 and nail bin passage 5030 no longer provide support reservation matrix 5050 and base portion 5022, but still can keep retaining the distance 5011 between matrix 5050 and the bottom of base portion 5022.In various embodiments, although apply bias force by the warehouse 5010 that compresses and/or by the tissue T compressed to reservation matrix 5050, but staple lower limb 5021 and the stiction retained between matrix 5050 can be enough to reservation matrix 5050 to be held in place.In at least one this type of embodiment, warehouse 5010 can be made up of elastomeric material, described elastomeric material can be applied elastic bias force to reservation matrix 5050 and staple 5020 when compressing, described elastic bias force is propulsive and retains matrix 5050 and staple 5020 to make it separately, but this motion is subject to staple lower limb 5021 and retains the antagonism of the frictional engagement between matrix 5050.

In various embodiments, as mentioned above, retain matrix and can comprise multiple retaining holes, wherein each retaining holes can hold the leg of securing member wherein.In at least one embodiment, referring now to Figure 162, retain a part for matrix 5150 shown in it, this part can comprise the retaining holes 5152 limited by periphery 5156.In various embodiments, the periphery 5156 in hole 5152 can comprise circle or at least substantially circular profile and/or other suitable profile any.In certain embodiments, retain matrix 5150 and can comprise one or more holding member (such as holding member 5153), when described one or more holding member extends to and also can work as in fastener leg patchhole 5152 in hole 5152, described hole 5152 engages this fastener leg.In at least one this type of embodiment, towards central axis 5159(namely each holding member 5153 can comprise, the center towards hole 5152) cantilever that extends internally.In various embodiments, each cantilever can comprise first end and the second end, and described first end is attached to and retains matrix body 5158, and described the second end forms the periphery 5156 of retaining holes 5152.In certain embodiments, the periphery 5156 of retaining holes 5152 can be limited by the first diameter or width, and fastener leg can be limited by Second bobbin diameter or width, and wherein said Second bobbin diameter can be greater than described first diameter.In at least one this type of embodiment, fastener leg can contact one or more in holding member 5153 and make it bend, to make the diameter of retaining holes 5152 increase when fastener leg is inserted in retaining holes 5152.In certain embodiments, to being described further above, the periphery that fastener leg limits can be greater than the periphery 5156 of retaining holes 5152, and make when fastener leg is inserted in periphery 5156, fastener leg can make periphery 5156 expand.

Refer again to Figure 162, in various embodiments, hole 5152 can be limited by deformable member 5153, wherein each deformable member 5153 can relative to or bend independent of other deformable member 5153.In at least one this type of embodiment, adjacent deformable member 5153 can be separated by slit 5154, and this slit can allow that each deformable member 5153 is relative to other deformable member 5153 flexing.In certain embodiments, each slit 5154 can comprise and retain the first end 5155 in matrix body 5158, opening to the second end in retaining holes 5152 and the width that is constant or at least substantial constant that extends between first end 5155 and the second end.In other embodiment various, the width of each slit 5154 can be inconsistent, and the width of each slit 5154 between its first end and the second end can increase and/or reduce.In certain embodiments, the first end 5155 of slit 5154 can comprise enlarging section (such as rounded portions), described enlarging section both can be the base portion being attached to the deformable member 5153 retaining matrix body 5158 and provided release of tension, also can increase the flexibility of deformable member 5153.In various embodiments, the geometry of deformable member 5153 and/or slit 5154 can be selected to the flexibility that deformable member 5153 provides expectation.In certain embodiments, such as slit 5154 can be lengthened out, and to form longer deformable member 5153, the comparable deformable member 5153 with shorter length of this longer deformable member has more flexibility.In at least one embodiment, the width of each deformable member 5153 can be selected to the flexibility that it provides expectation.More particularly, the comparable deformable member with thicker width of deformable member with thinner width has more flexibility.Refer again to Figure 162, in certain embodiments, the first end being attached to reservation matrix body 5158 of the cantilever of deformable member 5153 can wider than the second end of cantilever.In at least one this type of embodiment, cantilever can the mode with linearly or at least substantial linear between its first end and the second end be tapered.

Refer again to Figure 162, in various embodiments, retain matrix body 5158 and can comprise the flat or at least substantially flat material sheet with tissue contacting surface 5151 and end face 5157.In at least one this type of embodiment, tissue contacting surface 5151 and end face 5157 can be parallel to each other or at least substantially be parallel to each other.In various embodiments, each deformable member 5153 can comprise Part I 5153a and Part II 5153b, and wherein Part I 5153a can extend along first direction, and Part II 5153b can extend along different directions or second direction.In at least one this type of embodiment, retaining matrix body 5158 can limit plane, and the Part I 5153a of deformable member 5153 can be positioned at this plane.In various embodiments, the Part II 5153b of deformable member 5153 angularly can extend relative to Part I 5153a.In at least one this type of embodiment, Part II 5153b can extend along the direction away from the end face 5157 retaining matrix body 5158, and in certain embodiments, Part II 5153b can assemble towards the central axis 5159 of retaining holes 5152.In any case, in various embodiments, Part II 5153b can work as fastener leg through Part II 5153b and be inserted into time, Part II 5153b can bend away from central axis 5159.The staple lower limb 5021 of staple 5020 inserts in the embodiment in retaining holes 5152 wherein, and deformable member 5153 can along roughly away from the Direction distortion of the base portion 5122 of staple 5120.Therefore, in certain embodiments, deformable member 5153 can bend along identical with the direction that staple lower limb 5021 is inserted into or at least substantially the same roughly direction.

Refer again to figure BD, in various embodiments, the Part II 5153b of deformable member 5153 such as can comprise sharp top separately, and staple lower limb 5021 can be worked as when inserting wherein in described sharp top, slides against staple lower limb 5021 in described top.If staple lower limb 5021 in opposite direction (that is, by direction that staple lower limb 5021 removes from retaining holes 5052) be pulled, then the sharp tips of Part II 5153b also can be engaged in staple lower limb 5021.In some cases, Part II 5153b can tilt be greater than relative to the limit of staple lower limb 5021 angle of 90 degree, therefore, when staple lower limb 5021 is subject to the power being tending towards withdrawing from staple lower limb 5021 from retaining holes 5052, Part II 5153b can dig or be dug in the limit of staple lower limb 5021.In certain embodiments, staple lower limb 5021 can comprise impression and/or chamber (such as micro-indentations) in its surface, and described impression and/or chamber such as can hold the end of deformable member 5053 wherein.In at least one this type of embodiment, when applying to withdraw from power to staple lower limb 5021, the end of deformable member 5053 can be confined in or be dug in the impression of staple lower limb 5021.In various embodiments, the result in staple lower limb 5021 is dug into, for removing staple lower limb 5021 and Part II 5153b only can be seated to the more depths in staple lower limb 5021 by the power that acts on and increase the power removing staple lower limb 5021 and expect from retaining holes 5022 as Part II 5153b.In addition, because Part II 5153b is inclined upwardly, therefore at least one embodiment, Part II 5153b more can allow that staple lower limb 5021 to insert in retaining holes 5152 and more to resist withdrawing from of staple lower limb 5021.Therefore, at least one embodiment, staple lower limb 5021 is inserted the power expected in retaining holes 5022 and can be less than the power removing staple lower limb 5021 and expect from retaining holes 5022.In various embodiments, from retaining holes 5022, such as remove the comparable power about 50% staple lower limb 5021 being inserted expectation in retaining holes 5022 of power that staple lower limb 5021 is expected.In other embodiment various, such as, remove the power about 10% of power comparable insertion staple lower limb 5021 expectation that staple lower limb 5021 is expected to about between 100%.In certain embodiments, such as remove power that staple lower limb 5021 expects can be insert the power that staple lower limb 5021 is expected about 100%, about 150%, about 200% and/or than the power about 200% inserted staple lower limb 5021 and expect.

Refer again to Figure 162, in certain embodiments, Part II 5153b surrounding hole 5152 circumferentially can be arranged and can limit pit between Part II 5153b and hole 5152.More particularly, Part II 5153b can limit pit 5160, and pit 5160 can work as fastener leg when being inserted in retaining holes 5152, and pit 5160 holds the end of fastener leg.In various embodiments, the Part II 5153b of deformable member 5153 can comprise annular or at least substantially annular profile, that described profile such as can limit the annular of pit 1560 collaboratively or at least substantially annular profile.In at least one this type of embodiment, pit that is that Part II 5153b can limit taper or truncated cone shape.In various embodiments, pit can by the deformable member of suitable number (such as four deformable member 5153(Figure 162), six deformable member 5153(Figure 163) or eight deformable member 5153(Figure 164)) limit.Referring now to Figure 165, the deformable member, in certain embodiments, retaining matrix (such as retaining matrix 5250) such as can form cone shape or at least be essentially the shape of cone.In various embodiments, retain matrix 5250 and such as can comprise multiple retaining holes (such as retaining holes 5252), described multiple retaining holes can be limited by periphery 5256.In various embodiments, periphery 5256 can comprise polygonal or at least be essentially polygonal profile and/or other suitable profile.In certain embodiments, retain matrix 5250 and can comprise one or more holding member (such as holding member 5253), when described one or more holding member extends to and also can work as in fastener leg patchhole 5252 in hole 5252, described hole 5252 engages this fastener leg.In at least one this type of embodiment, towards central axis 5259(namely each holding member 5253 can comprise, the center towards hole 5252) cantilever that extends internally.In various embodiments, each cantilever can comprise first end and the second end, and described first end is attached to and retains matrix body 5258, and described the second end forms the periphery 5256 of retaining holes 5252.In certain embodiments, the periphery 5256 of retaining holes 5252 can be limited by the first diameter or width, and fastener leg can be limited by Second bobbin diameter or width, and wherein said Second bobbin diameter can be greater than described first diameter.In at least one this type of embodiment, fastener leg can contact one or more in holding member 5253 and make it bend, to make the diameter of retaining holes 5252 increase when fastener leg is inserted in retaining holes 5252.In certain embodiments, to being described further above, the periphery that fastener leg limits can be greater than the periphery 5256 of retaining holes 5252, and make when fastener leg is inserted in periphery 5256, fastener leg can make periphery 5256 expand.

Refer again to Figure 165, in various embodiments, hole 5252 can be limited by deformable member 5253, wherein each deformable member 5253 can relative to or bend independent of other deformable member 5253.In at least one this type of embodiment, adjacent deformable member 5253 can be separated by slit 5254, and slit 5254 can allow that each deformable member 5253 is relative to other deformable member 5253 flexing.In various embodiments, retain matrix body 5258 and can comprise the flat or at least substantially flat material sheet with tissue contacting surface 5251 and end face 5257.In at least one this type of embodiment, tissue contacting surface 5251 and end face 5257 can be parallel to each other or at least substantially be parallel to each other.In various embodiments, each deformable member 5253 can comprise Part I 5253a and Part II 5253b, and wherein Part I 5253a can extend along first direction, and Part II 5253b can extend along different directions or second direction.In at least one this type of embodiment, retaining matrix body 5258 can limit plane, and the Part I 5253a of deformable member 5253 can be positioned at this plane.In various embodiments, the Part II 5253b of deformable member 5253 angularly can extend relative to Part I 5253a.In at least one this type of embodiment, Part II 5253b can extend along the direction away from the end face 5257 retaining matrix body 5258, and in certain embodiments, Part II 5253b can assemble towards the central axis 5259 of retaining holes 5252.In any case, in various embodiments, Part II 5253b can work as fastener leg through Part II 5253b and be inserted into time, Part II 5253b can bend away from central axis 5259.Refer again to Figure 165, in certain embodiments, Part II 5253b surrounding hole 5252 circumferentially can be arranged and can limit pit between Part II 5253b and hole 5252.More particularly, Part II 5253b can limit pit, and described pit can work as fastener leg when being inserted in retaining holes 5252, and described pit holds the end of fastener leg.In various embodiments, the Part II 5253b of deformable member 5253 such as can limit polygon or at least be essentially polygonal pit.In various embodiments, pit can by the deformable member of suitable number (such as can limit foursquare four deformable member 5253(Figure 165), hexagonal six deformable member 5253(Figure 166 can be limited), maybe can limit octagonal eight deformable member 5253(Figure 167)) limit.

Referring now to Figure 168, in various embodiments, retaining matrix (such as, retaining matrix 5350) can by flat or at least substantially flat material (such as, titanium and/or rustless steel) thin slice formation.In at least one this type of embodiment, in the body 5358 retaining matrix 5350, form multiple hole 5352 by one or more punching course.Material sheet can be positioned in diel, and some part of material can stamp out, to form the such as hole 5355 of slit 5354, slit 5354 and/or the periphery 5356 of retaining holes 5352 when activating by described mould.Deformable member 5353 also can be bent to suitable configuration by diel.In at least one this type of embodiment, diel can make Part II 5353b upwards be out of shape along broken line 5353c relative to Part I 5353a.Referring now to Figure 169, in various embodiments, retain matrix (such as retaining matrix 5450) and multiple retaining holes 5452 can be comprised.To similar above, the periphery 5456 of each retaining holes 5452 can limit by by slit or the isolated multiple deformable member 5453 of slit 5454.In at least one this type of embodiment, the entirety of each deformable member 5453 all can be bent upwards, and the free end comprising the cantilever of deformable member 5453 can limit periphery 5456.In various embodiments, retain matrix 5450 can comprise around or at least substantially around multiple holes 5455 of retaining holes 5452.In at least one this type of embodiment, hole 5455 can around or surround the periphery that limited by the stiff end of the cantilever of deformable member 5453 and be aligned to circular array.In certain embodiments, each hole 5455 can comprise circle or at least substantially circular periphery and/or other suitable periphery any.In use, hole 5455 both can be the base portion being attached to the deformable member 5453 retaining matrix body 5458 and provided release of tension, can increase again the flexibility of deformable member 5453.In various embodiments, larger hole 5455 can make deformable member 5453 have more flexibility compared with less hole 5455.In addition, the hole 5455 closer to deformable member 5453 can provide larger flexibility compared with farther hole 5455.

Referring now to Figure 170, in various embodiments, retain matrix (such as, retaining matrix 5550) and multiple retaining holes 5552 can be comprised.Each retaining holes 5552 all can comprise elongated slot 5554, and this elongated slot has the circle of amplification or at least substantially circular end 5555.In at least one this type of embodiment, end 5555 can be limited by the diameter wider than slit 5554.In certain embodiments, elongated slot 5554 and end 5555 can longitudinally to be located and/or between two parties by axis 5559.In various embodiments, slit 5554 and end 5555 can limit two relative lugs 5553, described two relative lugs 5553 can the leg of jointing fastener, and when fastener leg is inserted into through lug 5553, and described two relative lugs 5553 can bend.In at least one embodiment, the end 5555 with larger girth or diameter can limit longer lug 5553, and the lug 5553 that the comparable end 5555 with less girth or diameter of described lug 5553 limits has more flexibility.In various embodiments, end 5555 can have identical girth and diameter, and at least one this type of embodiment, each lug 5553 can about axisymmetrical that is vertical with longitudinal axis 5559 or at least perpendicular.Alternatively, end 5555 can have different girths and/or diameter, and wherein at least one embodiment, each lug 5553 can be not in relation to its axisymmetrical.In at least one this alternative embodiment, when fastener leg is inserted into through retaining holes 5552, lug 5553 can around its axis distortion.Referring now to Figure 171, in various embodiments, retain matrix (such as retaining matrix 5650) and multiple retaining holes 5652 can be comprised.Each retaining holes 5652 all can comprise elongated slot 5654, and this elongated slot comprises circle or at least substantially circular end 5655.In at least one this type of embodiment, elongated slot 5654 and end 5655 can longitudinally to be located and/or between two parties by axis 5659.In various embodiments, each end 5655 all can be limited by identical with the width of slit 5654 or at least substantially the same diameter.

Referring now to Figure 172, in various embodiments, retain matrix (such as, retaining matrix 5750) and multiple retaining holes 5752 can be comprised.Each retaining holes 5752 can comprise multiple slits (such as slit 5754) with enlarged distal end 5755.In at least one this type of embodiment, slit 5754 and end 5755 can longitudinally to be located and/or between two parties by axis 5759.In various embodiments, axis 5759 can along mutually vertical or across direction extend.In certain embodiments, slit 5754 and end 5755 such as can limit four lugs 5753, and described four lugs 5753 can jointing fastener supporting leg, and when fastener leg is inserted into through retaining holes 5752, described four lugs 5753 bend.In at least one embodiment, each lug 5753 can comprise leg-of-mutton or at least be essentially leg-of-mutton configuration (such as equilateral triangle).Referring now to Figure 173, in other embodiment various, retain matrix (such as retaining matrix 5850) and multiple retaining holes 5852 can be comprised.Each retaining holes 5852 can comprise multiple slits (such as slit 5854) with end 5855, and wherein slit 5854 and end 5855 can longitudinally to be located and/or between two parties by axis 5859.In various embodiments, axis 5859 can along mutually vertical or across direction extend.In certain embodiments, slit 5854 and end 5855 can limit lug 5853, and lug 5853 can jointing fastener supporting leg, and when fastener leg is inserted into through retaining holes 5852, lug 5853 bends.In at least one embodiment, each lug 5853 can comprise the profile of arch.More particularly, different from the end of the point shown in Figure 170, each lug 5853 can comprise bending end, and described end can touch fastener supporting leg.

Referring now to Figure 174, in various embodiments, retain matrix (such as, retaining matrix 5950) and multiple retaining holes 5952 can be comprised.Each retaining holes 5952 can comprise multiple slit (such as slit 5954), and wherein each slit 5954 can to extend and/or between two parties along axis 5959.In various embodiments, axis 5959 can transverse to each other, and at least one this type of embodiment, axis 5959 can be configured such that all axis 5959 extend through retaining holes 5952 center and each other equidistantly or at least substantially equidistantly spaced apart.In at least one embodiment, each slit 5954 can comprise towards the center of retaining holes 5952 opening and be positioned at the second end of opposed ends or the blind end 5955 of slit 5954.To similar above, slit 5954 and end 5955 such as can limit three lugs 5953, and described three lugs 5953 can jointing fastener supporting leg, and when fastener leg is inserted into through retaining holes 5952, described three lugs 5953 bend.In various embodiments, each lug 5953 can be included in the arch configuration extended between the adjacent end 5955 of slit 5954.Referring now to Figure 175, in various embodiments, retain matrix (such as retaining matrix 6050) and multiple retaining holes 6052 can be comprised.Each retaining holes 6052 can comprise lug 6053, and lug 6053 can jointing fastener supporting leg, and when fastener leg is inserted in retaining holes 6052, lug 6053 bends.In at least one this type of embodiment, lug 6053 can comprise the base portion being fixed to reservation matrix body 6058 and the free end comprising arch or curved profile 6056, and described free end can touch fastener supporting leg.In certain embodiments, fastener leg can for the staple lower limb be made up of round wire material, and wherein bending profile 6056 can be mated with the crooked outer surface of circular wire rod or at least substantially mate.

Refer again to Figure 175, in various embodiments, retain matrix body 6058 and can comprise multiple slit 6054 and hole 6055, described multiple slit 6054 and hole 6055 can limit the various piece of lug 6053 and retaining holes 6052.In at least one embodiment, lug 6053 can comprise rectangular configuration, and described rectangular configuration comprises parallel or at least substantially parallel limit.Referring now to Figure 176, in certain embodiments, retain matrix (such as retaining matrix 6150) and multiple retaining holes 6152 can be comprised.Each retaining holes 6152 can comprise lug 6153, and this lug can jointing fastener supporting leg, and when fastener leg is inserted in retaining holes 6152, this lug bends.In at least one this type of embodiment, lug 6153 can comprise the base portion being fixed to reservation matrix body 6158 and the free end comprising arch or curved profile 6156, and described free end can touch fastener supporting leg.In various embodiments, retain matrix body 6158 and can comprise multiple slit 6154 and hole 6155, described multiple slit 6154 and hole 6155 can limit the various piece of lug 6153 and retaining holes 6152.In at least one embodiment, lug 6153 can comprise tapered configuration, and described tapered configuration comprises the limit of arch.In at least one this type of embodiment, lug 6153 can geometrically be tapered, such as, make base portion wider than free end.

In various embodiments, as mentioned above, fastening system can comprise multiple staple, and described multiple staple comprises the staple lower limb be inserted into through the multiple retaining holes retained in matrix.In certain embodiments, describe in more detail as following, staple can be maintained in the first jaw, and retains matrix and can be maintained in the second jaw, and at least one wherein in the first jaw and the second jaw can be moved towards another one.In various scenarios, the staple being arranged in the first jaw can be fixed on wherein, and make when retaining matrix and engaging with staple lower limb, staple lower limb aligns with retaining holes.See Figure 177 and Figure 178, in certain embodiments, closure system can comprise the nail bin 6200 of the first jaw being such as arranged in surgical stapling device and such as be arranged in the reservation matrix 6250 of the second jaw of surgical stapling device.Referring now to Figure 184 and Figure 185, to being described further above, retain matrix 6250 and can comprise multiple retaining holes 6252, wherein each retaining holes 6252 can comprise the periphery 6256 limited by one or more deflection component 6253.In at least one this type of embodiment, to being described further, pit 6201 can be limited for the deflection component 6253 limiting each hole 6252 above.In various embodiments, each pit 6201 can comprise such as bending and/or concave surface, and described bending and/or concave surface such as can be unjustified with retaining holes 6252 and first contact in the situation of deflection component 6253 and/or tissue contacting surface 6251 and guided in hole 6252 by the end of staple lower limb at staple lower limb.

In various embodiments, to being described further above, fastening system also can comprise multiple staple 6220, and described multiple staple 6220 comprises the staple lower limb 6221 that can be inserted into through the retaining holes 6252 retained in matrix 6250.In at least one this type of embodiment, each staple 6220 can comprise the configuration being such as essentially U-shaped, and described configuration comprises base portion 6222, and described staple lower limb 6221 upwards can extend from base portion 6222.Referring now to Figure 180 and Figure 181, in various embodiments, the retaining holes 6252 retained in matrix 6250 can be aligned to such as two parallel or at least substantially parallel stringers, and described stringer can along retaining the longitudinal axis of matrix or being parallel to described longitudinal axis and extending.In certain embodiments, the retaining holes 6252 in the first row can offset or stagger arrangement relative to the retaining holes 6252 in the second row.In at least one this type of embodiment, each staple 6220 can comprise the first staple lower limb 6221 of the retaining holes 6252 being arranged in the first row and be arranged in the second staple lower limb 6221 of retaining holes 6252 of the second row, wherein as a result, base portion 6222 can extend along the direction across the longitudinal axis retaining matrix 6250.In at least one this type of embodiment, staple 6220 can be parallel to each other or at least substantially be parallel to each other.More particularly, the base portion 6222a of such as staple 6220a can be parallel to or can be parallel at least substantially parallel to the base portion 6222b of staple 6220b, the base portion 6222b of described staple 6220b or at least substantially parallel to the base portion 6222c of staple 6220c.In at least one embodiment, the plane that the plane that the staple lower limb 6221a of such as staple 6220a limits can be parallel to or limit at least substantially parallel to the staple lower limb 6221b of staple 6220b, and the plane that the staple lower limb 6221b of staple 6220b limits can be parallel to or the plane that limits at least substantially parallel to the staple lower limb 6221 of staple 6220c.

Referring now to Figure 177 and 179, in various embodiments, nail bin 6200 can comprise multiple staple 6220 and comprise the alignment matrix 6260 of multiple alignment guide (such as, slit, groove and/or hole), and described multiple alignment guide can be alignd staple 6220.In various scenarios, alignment matrix 6260 can make before reservation matrix 6250 engages staple lower limb 6221, and the staple lower limb 6221 of staple 6220 aligns with the retaining holes 6252 retained in matrix 6250.Referring now to Figure 182 and Figure 183, in various embodiments, alignment matrix 6260 can comprise multiple aligned hole 6262, and described multiple aligned hole closely can hold the staple lower limb 6221 of staple 6220.In at least one this type of embodiment, two staple lower limbs 6221 that each staple 6220 can comprise base portion 6222 and extend from base portion 6222, wherein the base portion 6222 of staple 6220 can extend around the lower surface 6264 retaining matrix 6260, and staple lower limb 6221 upwards can extend through aligned hole 6262.In certain embodiments, each aligned hole 6262 can be circular or at least substantially circular, and the diameter limiting aligned hole 6262 can be equal to or slightly greater than through the wherein diameter of the staple lower limb 6221 extended.In various embodiments, alignment matrix 6260 also can comprise the component 6263 of multiple projection, the component of described multiple projection upwards can extend from the end face 6261 of alignment matrix 6260 and around or at least in part around aligned hole 6262.In certain embodiments, protruding component 6263 can provide longer aligned hole 6262, and wherein in various scenarios, the hole 6262 that longer hole 6262 can be shorter controls the alignment of staple lower limb 6221 better.

In use, in various embodiments, support the first jaw of nail bin 6200 and can be positioned on the side of tissue that is sewn, and support the second jaw retaining matrix 6250 and can be positioned on the opposite side of tissue.In certain embodiments, once jaw is properly positioned relative to tissue, then the second jaw and reservation matrix 6250 can move towards nail bin 6200.In various embodiments, when staple lower limb 6221 is inserted into through the retaining holes 6252 retaining matrix 6250, retain the tissue contacting surface of matrix 6250 or lower surface 6251 can contact tissue and by organize be pressed against alignment matrix 6260 tissue contacting surface or end face 6261 on.In other embodiment various, as will be described in more detail, nail bin 6200 also can such as comprise be positioned at alignment matrix 6260 end face 6261 above and can the compressible warehouse of contact tissue.Refer again to Figure 179 and Figure 183, in certain embodiments, alignment matrix 6260 also can comprise and is limited to one or more hole 6203; When alignment matrix 6260 is located against tissue, described one or more hole can hold a part for tissue wherein.Compressible warehouse to be arranged in above alignment matrix 6260 and/or against the embodiment of alignment matrix 6260 wherein, and when warehouse is compressed, the part of compressible warehouse can in access aperture 6203.Similarly, retain matrix 6250 and can comprise multiple hole 6202, described multiple hole 6202 can work as and be retained matrix 6250 when locating against tissue, and described multiple hole 6202 holds wherein organizes at least partially.

To being described further above, when the staple lower limb 6221 of staple 6220 is inserted into through the retaining holes 6252 retaining matrix 6250, the top of staple lower limb 6221 can from retaining the end face 6257 of matrix 6250 upwardly.In various scenarios, as mentioned above, the end of staple lower limb 6221 can keep not bending after being inserted into through retaining holes 6252.Referring now to Figure 186-189; in certain embodiments; the fastening system comprising nail bin 6200 and reservation matrix 6250 can comprise multiple protectiveness cap or covering (such as cap 6270), and described multiple protectiveness cap or covering can be mounted to the staple lower limb 6221 being projected on and retaining above matrix 6250.In various embodiments, each cap 6270 can cover the sharp tips of staple lower limb 6221 completely or at least in part, makes described sharp tips can not contact the tissue be adjacent.Referring now to Figure 189, at least one embodiment, each cap 6270 can comprise the hole 6271 be limited to wherein, and this hole closely can hold the end of staple lower limb 6221 wherein.In various embodiments, cap 6270 can be made up of elastomeric material (such as siloxanes, polyisoprene, Sanoprene and/or natural rubber).In at least one embodiment, the girth in hole 6271 or diameter can be less than girth or the diameter of insertion staple lower limb 6221 wherein.In at least one this type of embodiment, hole 6271 easily extensible in protectiveness cap 6270 is to hold staple lower limb 6221 wherein.In various alternative embodiment, cap 6270 can not comprise hole, and the end of staple lower limb 6221 can work as leg 6221 when inserting cap 6270, described cutaway tip cap 6270.In any case, in various embodiments, each cap 6270 all can be seated on staple lower limb 6221, until the base portion 6272 of cap 6270 adjacent or contiguous retain matrix 6250 end face 6257 and till location.In various scenarios, cap 6270 can make it be closely seated on the end of staple lower limb 6221, can not be removed from described end easily to make it.In certain embodiments, each cap 6270 such as can comprise taper or the outer surface that is at least essentially taper.In various embodiments, cap 6270 can comprise any suitable shape, such as, comprise parabola shaped or be at least essentially the shape of parabola shaped outer surface.

In various embodiments, such as the surgical stapling device shown in Figure 190-192 can be used dispose such as above-mentioned closure system.In various embodiments; end effector can comprise the first jaw or nail bin passage 6230 and the second jaw 6240; nail bin 6200 can be supported on wherein by the first jaw or nail bin passage 6230, and the second jaw 6240 can support reservation matrix 6250 and described multiple protectiveness cap 6270.Main see Figure 190, it illustrates the second jaw 6240 being in and opening configuration, relative to tissue T, jaw 6230 and 6240 can be positioned such that tissue T is between reservation matrix 6250 and nail bin 6200.In various embodiments, as mentioned above, nail bin 6200 also can comprise compressible warehouse (such as warehouse 6210), can be positioned with staple 6220 and alignment matrix 6260 in described compressible warehouse.In at least one this type of embodiment, tissue T can be located against the end face of warehouse 6210.In certain embodiments; second jaw 6240 can comprise multiple depressed part or hole 6245 and one or more reservation structure or keeper; described multiple depressed part or hole 6245 can hold multiple protectiveness cap 6270, and reservation matrix 6250 can be held in place relative to cap 6270 by described one or more reservation structure or keeper.In at least one this type of embodiment, retaining matrix 6250 can remain on cap 6270 in hole 6245.Referring now to Figure 20 2, in various embodiments, part or all of cap 6270 all can be contained in wherein by each hole 6245.In certain embodiments, the size in hole 6245 is sufficiently set to and can be such as made by be press-fitted and/or cap 6270 is fixed in hole 6245 by least one in snap fit features.In certain embodiments, at least one binding agent can be utilized to be fixed in hole 6245 by cap 6270.In at least one this type of embodiment, this binding agent can be selected such that cap 6270 engage staple lower limb 6221 and the second jaw 6240 away from implanted fastener assembly motion after, cap 6270 can be dismantled from the second jaw 6240.Referring now to Figure 20 3, in certain embodiments, the second jaw 6240 also can comprise at least one cover sheet 6246, and at least one cover sheet described can be assembled to the second jaw 6240 and can extend above cap 6270 and be remained in hole 6245 by cap 6270.In at least one this type of embodiment, such as, can utilize at least one binding agent that cover sheet 6246 is fixed to jaw 6240 at least partially.In use, at least one embodiment, before end effector is inserted into operative site, cover sheet 6246 can be dismantled from jaw 6240 at least in part.In certain embodiments, cover sheet 6246 can be made up of implantable material (such as PDS and/or PGA), and when staple lower limb 6221 exposes from reservation matrix 6250, described implantable material can be cut by staple lower limb 6221.In at least one this type of embodiment, cover sheet 6246 can be fixed in fastening system between covering 6270 and reservation matrix 6250.

Referring now to Figure 191, to being described further above, jaw 6240 can move to make position from open position, and in make position, tissue T is located against reservation matrix 6250 and warehouse 6210.In this position, retain matrix 6250 and can not engage staple 6220.In various embodiments, jaw 6240 moves between its open position and its make position by actuator 6235.In at least one this type of embodiment, jaw 6240 can comprise the distal pin 6243 and proximal pin 6244 that extend from it, wherein distal pin 6243 vertically or at least substantially perpendicularly can be slided being limited in the distally slit 6233 in storehouse passage 6230, and wherein proximal pin 6244 vertically or at least substantially perpendicularly can be slided being limited to equally in the nearside slit 6234 in nail bin passage 6230.In use, actuator 6235 can proximally be retracted, to be urged to by pin 6243 and 6244 in the upper end of its corresponding slit 6233 and 6234, as shown in Figure 191.In at least one this type of embodiment, actuator 6235 can comprise distally and drive slit 6236 and nearside to drive slit 6237, wherein drive slit 6236 with 6237 sidewall can contact distal pin 6243 and proximal pin 6244 respectively, and when actuator 6235 proximally moves upwards drive pin 6243 and 6244.More particularly, when actuator 6235 proximally moves, distal pin 6243 can make distally drive the Part I 6236a upward sliding of the inclination of slit 6236 in mid portion or Part II 6236b; Similarly, proximal pin 6244 can make distally drive the Part I 6237a upward sliding of the inclination of slit 6237 in mid portion or Part II 6237b.When both pins 6243 and 6244 all move upward, jaw 6240 can be rotated down to make position towards tissue T.

Referring now to Figure 192; to being described further above; actuator 6235 can proximally be pulled further, to promote the second jaw 6240 downwards towards the first jaw 6230, compress warehouse 6210 and make reservation matrix 6250 and multiple protectiveness cap 6270 engage with the staple lower limb of staple 6220.In at least one this type of embodiment, the additional proximal movement of actuator 6235 can make the sidewall of driving slit 6236 and 6237 difference contact plug 6243 and 6244 also respectively towards the downward drive pin 6243 and 6244 in bottom of slit 6233 and 6234.In this case, actuator 6235 can proximally be pulled, distal pin 6243 is left and drives the Part II 6236b of slit 6236 and enter the Part III 6236c of inclination, and similarly, proximal pin 6244 leaves the Part II 6237b the Part III 6237c entering inclination that drive slit 6237.When both pins 6243 and 6244 all move downward, the second jaw 6240 can move downwardly to firing position towards the first jaw 6230.In at least one this type of embodiment, the second jaw 6240 can move downward, make to retain matrix 6250 remain parallel to or at least substantially parallel to warehouse 6210 end face and/or to be parallel to or at least substantially parallel to alignment matrix 6260.In any case, once reservation matrix 6250 and protectiveness cap 6270 engage the staple lower limb 6221 of staple 6220, as shown in Figure 194, then the second jaw 6240 can be back to position that is that open or that at least substantially open.In at least one this type of embodiment, actuator 6235 can distally be pushed, pin 6243 and 6244 to be urged to respectively the end of slit 6233 and 6234, and subsequently once pin is through corresponding mid portion 6236b and 6237b driving slit 6236 and 6237, then actuator 6235 is driven downwards towards the bottom of slit 6233 and 6234.Once the second jaw 6240 is opened, then the first jaw 6230 can be dismantled from the nail bin 6200 implanted, and the first jaw 6230 and the second jaw 6240 can be removed away from the fastener assembly implanted, as shown in Figure 193.

Refer again to Figure 192, although reader it should be noted that reservation matrix 6250 and cap 6270 have engaged staple lower limb 6221, but pin 6243 and 6244 is not depicted as in the bottommost being placed in its respective slots 6233 and 6234 in figure.When thick tissue T, when retaining between matrix 6250 and warehouse 6210, this situation can occur.Referring now to Figure 195, tissue T thin is wherein retaining in the situation between matrix 6250 and warehouse 6210, and pin 6243 and 6244 can be driven downwards further to its corresponding slit 6233 and 6234, as shown in Figure 197.In general; in at least one this type of embodiment; actuator 6235 can proximally be pulled; to be come upwards and downward drive pin 6243 and 6244 by the process shown in above-mentioned and Figure 195-197; and because tissue T is thinner; reservation matrix 6250 and protectiveness cap 6270 can be driven on the staple lower limb 6221 of staple 6220, further as shown in Figure 198 and Figure 199.In various embodiments, as the result retaining the adjustable that matrix 6250 provides, the tissue no matter be captured in end effector is thick or thin, all can obtain identical or at least substantially the same compression pressure in fastening tissue.In certain embodiments, the adjustable tolerable surgeon that retaining matrix 6250 provides selects to apply the still less compression pressure of larger compression pressure to tissue by the degree of depth that selection reservation matrix 6250 is placed.In at least one this type of embodiment, retain matrix 6250 and can be seated to scope on staple lower limb 6221 and such as determine by the length of slit 6233 and 6234 or scope.

In various embodiments, as mentioned above, protectiveness cap 6270 can by such as can firmly grasp staple lower limb 6221 end softness or the material of flexibility form.In certain embodiments, protectiveness cap 6270 can by can the plastics (polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL sold with trade name Monocryl) of bio-absorbable, the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL) and/or biocompatibility metal (such as titanium and/or rustless steel) formed.As shown in Figure 189, at least one embodiment, each cap 6270 can be not attached to other cap 6270.In some other embodiment, one or more cap 6270 can be mounted to and retain matrix 6250.In at least one this type of embodiment, cap 6270 such as can be connected to by least one binding agent and retain matrix 6250, can align with the retaining holes 6252 retained in matrix 6270 or at least substantial alignment in the hole 6271 wherein in cap 6270.Referring now to Figure 200, in various embodiments, protectiveness cap (such as cap 6370) can limit inner chamber or fornix 6374, and the end of staple lower limb 6221 can such as can be contained in wherein by inner chamber or fornix 6374.In at least one this type of embodiment, cap 6370 can comprise bottom 6372 and extend through the hole 6371 of bottom 6372.In various embodiments, hole 6371 can be limited by the component 6373 of one or more deflection, the component 6373 of described one or more deflection can work as staple lower limb 6221 through wherein and be inserted into time, the component 6373 of described one or more deflection can bend.In certain embodiments, such as two or more caps 6370 can be joined together to form the array of cap 6370.Referring now to Figure 20 1, at least one this type of embodiment, multiple cap 6370 links together by material sheet 6375.In certain embodiments, thin slice 6375 can have enough rigidity to keep arrangement and/or the alignment thereof of the expectation of cap 6370.In at least one embodiment, cap 6370 can be made up of biocompatibility metal (such as titanium and/or rustless steel), and thin slice 6375 can by can the plastics (polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25(PGCL sold with trade name Monocryl) of bio-absorbable, the complex of polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL) formed.In various embodiments, thin slice 6375 can by wherein storing and/or be dispersed with can the material of bio-absorbable forming of antibacterial (such as collargol and/or triclosan), and such as, when thin slice 6375 is by bio-absorbable, described antibacterial can be released.

In various embodiments, to being described further above, such as, can utilizing injection molding method by thin slice 6375 injection molding around cap 6370, cap 6370 is embedded in thin slice 6375.In some other embodiment, such as, injection molding method can be utilized to carry out molded sheet 6375, wherein such as during injection molding method and/or after injection molding method, process for stamping can be utilized in thin slice 6375 to form hole 6376.In any one situation in both cases, can will utilize and to be press-fitted and/or snap fit interconnecting method and/or at least one binding agent are fixed in hole 6376 in cap 6370 patchhole 6376.In certain embodiments, each cap 6370 can comprise around or at least in part around the ring-shaped groove of cap 6370 periphery, the periphery in hole 6376 can be contained in wherein by described ring-shaped groove.In certain embodiments, thin slice 6375 can by allowing that the flexibility of carrying out relative motion between cap 6370 and/or pliable material are formed.In at least one this type of embodiment, flexible thin sheet 6375 can be made up of such as rubber, plastics and/or silicone compositions, and cap 6370 can be made up of rigid material (such as metal).In at least one this type of embodiment, to similar above, flexible material can be overmolded to around cap 6370.In certain embodiments, such as cap 6370 can be pressed in thin slice 6375 molded in advance.In various embodiments, the hardness of flexible material can be chosen to the rigidity providing thin slice 6375 to expect.In certain embodiments, thin slice 6375 can make it comprise flexible band.In any case, thin slice 6375 can be conducive to cap 6370 to be assembled in end effector, this is because can multiple cap 6370 be located and/or is aligned in end effector simultaneously.In addition, for the thin slice 6375 of attachment cap 6370 once implanted, then can such as strengthen along staple line or support staple.Substituting except the thin slice for attachment cap 6370 or as described thin slice, cap 6370 links together by multiple chain link.In at least one this type of embodiment, this chain link can be flexible and carries out relative motion between tolerable cap 6370.

Referring now to Figure 20 4 and 205, in various embodiments, protectiveness cap (such as, cap 6470) can comprise profiled surface, and described profiled surface can make the top of staple lower limb be out of shape.In at least one this type of embodiment, cap 6470 can comprise base portion 6472, and this base portion can comprise the hole 6471 extended through wherein.In various embodiments, staple lower limb (such as staple lower limb 6221) can closely be contained in wherein by hole 6471.In at least one this type of embodiment, the diameter of limiting hole 6471 or girth can be equal to or greater than diameter or the girth of staple lower limb 6221.In various embodiments, cap 6470 also can comprise chamber or fornix 6474, and this chamber or fornix can work as the end holding staple lower limb 6221 when staple lower limb 6221 is inserted in cap 6470.Main see Figure 20 5, cap 6470 also can comprise anvil block or profiled surface 6473, and this anvil block or profiled surface can make staple lower limb 6221 bend and be out of shape.In some cases, profiled surface 6473 such as can be bending and/or spill, and can work as when staple lower limb 6221 is inserted into cap 6470 and make staple lower limb 6221 curling.In certain embodiments, staple lower limb 6221 can be deformed sufficiently to make it cannot be withdrawn from through hole 6471, and therefore cap 6470 can be locked to staple lower limb 6221.In at least one this type of embodiment, the antelabium that the base portion 6472 of cap 6470 can limit surrounding hole 6471 and extend, described antelabium can prevent strained staple lower limb 6221 to be removed from chamber 6474.In various scenarios, as result above, one or more cap 6470 can prevent or suppress to retain matrix (such as retaining matrix 6250) and falls back from staple 6220 or depart from.In various embodiments, although not shown, but cap 6470 can be formed symmetrically or at least substantially symmetrically, and hole 6471 can be located along the central axis 6479 extended through cap 6470.Refer again to Figure 20 4, in various alternative embodiment, hole 6471 can offset relative to central axis 6479.In at least one this type of embodiment, the hole 6471 tolerable staple lower limb 6221 of skew contacts the side of profiled surface 6473 and is crimped onto the opposite side of profiled surface 6473, but not the center of contact profiled surface 6473, as above-mentioned comprise contingent in the embodiment in the placed in the middle hole 6471 arranged.

In various embodiments, as mentioned above, retain matrix (such as, retaining matrix 6250) to be made up of material sheet and the multiple retaining holes 6252 extended through described material sheet.In at least certain embodiments, form and to retain the material sheet of matrix 6250 can be rigidity or not deflection substantially.In some other embodiment, retaining matrix can be made up of the reservation array of matrix element and the multiple flexible connector or chain link for connecting described reservation matrix element.Referring now to Figure 20 6, in various embodiments, the part retaining matrix or reservation matrix 6550 can comprise multiple component body 6505, and described multiple component body can be linked together by one or more connecting link 6507.In at least one embodiment, each component body 6505 all can comprise multiple deformable member 6553, and described multiple deformable member can limit retaining holes 6552 wherein.In certain embodiments, the component body 6505 and the connecting link 6507 that retain matrix 6550 can form as one and can comprise integral type material block.In various embodiments, retain matrix 6550 can such as be formed by metal material (such as titanium and/or rustless steel) punching press or casting.In at least one embodiment, retaining matrix 6550 can by plastics (such as polyether-ether-ketone (PEEK), the polypropylene sold with trade name suture (Prolene), the polyethylene terephthalate of selling with trade name Ethibond and Mersilene, polyvinylidene fluoride, polyvinylidene fluoride-altogether-hexafluoropropene, the polyhexafluoropropylene-VDF sold with trade name Pronova and/or the long-chain fat race polymer nylon 6 sold with trade name Ethilon & Nurolon and nylon 6,6) form, and can such as be formed by injection molding method.In certain embodiments, component body 6505 can not form one with connecting link 6507.In various embodiments, can produce multiple single component body 6505, described multiple single component body 6505 is joined together subsequently and is embedded into and retains in matrix.In at least one this type of embodiment, component body 6505 can be stamped to form by metal material (such as titanium and/or rustless steel) and be placed in plastic injection mould, wherein plastic material can be injected mould with formed around or at least in part around the edge 6506 of component body 6505 and the connecting link 6507 that extends from edge 6506.In some other embodiment, one or more connector dot matrix can be formed to comprise the hole be limited in multiple edge 6506, and wherein component body 6505 all can be contained in wherein by each this hole.In at least one embodiment, each component body 6505 can comprise neighboring that is circular or that be at least essentially circle; Similarly, can be limited with hole that is circular or that be at least essentially circle in each edge 6506, the diameter in wherein said hole can be equal to or less than the diameter of component body 6505.In at least one this type of embodiment, component body 6505 can be press-fitted or in hole in built-in edge 6505.In certain embodiments, at least one binding agent can be utilized to be fixed in hole by component body 6505.

In certain embodiments, to being described further above, retain matrix and can comprise multiple component body 6505 and multiple connecting link 6507, described multiple connecting link 6507 can carry out Connection Element body 6505 by any suitable array (such as, Figure 20 7-210 those shown).No matter the pattern of array why, in various embodiments, connecting link 6507 can allow that component body 6505 and retaining holes 6552 are relative to each other moved.In at least one this type of embodiment, form and retain the component body 6505 of matrix 6550 and the dot matrix of connecting link 6507 once engage with tissue and just can stretch, distortion, to collapse and/or in other words flexing, so as to allow the motion of in-house at least some and while resisted organize carry out larger motion.In various embodiments, each connecting link 6507 can comprise flexure member, and described flexure member can stretch, distortion and/or collapse, so that such as allow retention matrix 6550 flexing between reservation matrix element 6505.Refer again to Figure 20 6, the width limiting each chain link 6507 extended from edge 6506 can be narrower than the width at component body 6505 and/or edge 6506.See Figure 20 7-210, in certain embodiments, one or more chain link 6507 can comprise straight part, and described part directly such as extends along the line between adjacent component body 6506.In at least one this type of embodiment, each chain link 6507 can comprise the first end being attached to the first edge 6506 and the second end being attached to the second edge 6506.Refer again to Figure 20 6, in certain embodiments, two or more chain links 6507 can be interconnected.In at least one this type of embodiment, such as two or more chain links 6507 can be connected to middle hinge 6509 place.In various embodiments, the tranverse sectional thickness of such as hinge 6509 can reduce along one or more direction compared with the tranverse sectional thickness of chain link 6507, and the chain link 6507 that this tolerable is connected relative to each other moves.In certain embodiments, retain matrix 6550 and also can comprise hinge 6508, chain link 6507 can be connected to edge 6506 and allow relative motion between chain link 6507 and edge 6506 by hinge 6508.Similar to hinge 6509, the tranverse sectional thickness of such as hinge 6508 can reduce along one or more direction compared with the tranverse sectional thickness of chain link 6507.

In various embodiments, to being described further above, the chain link 6507 be connected can extend along different directions.In at least one this type of embodiment, the first chain link 6507 can extend along first direction, and the second chain link 6507 can extend along second direction, and wherein said first direction can be different from described second direction.In certain embodiments, the first chain link 6507 can extend along First Line, and the second chain link 6507 can extend along the second line, wherein said First Line and described second line can angled (such as about 30 degree, about 45 degree, about 60 degree and/or about 90 degree) crossing.In various embodiments, hinge 6508 and/or hinge 6509 can comprise hinges, and described hinges tolerable chain link 6507 relative to each other repeatedly moves and can not rupture.In certain embodiments, hinge 6508 and/or hinge 6509 can comprise part that is frangible or easy fracture, and described part that is frangible or easy fracture can rupture when hyperflexion and/or too much number of times ground flexing.In at least one this type of embodiment, one or more part that this frangible portion tolerable retains matrix 6550 disconnects with the another part retaining matrix 6550.In various embodiments, hinge 6508 and/or hinge 6509 such as can comprise the section of cutting easier than the other parts retaining matrix 6550 retaining matrix 6550.More specifically, the reservation matrix implanted and can often being cut by cut for various reasons component by the fastening tissue of the reservation matrix implanted, and in order to be conducive to carrying out this crosscut, hinge 6508 and/or hinge 6509 such as can provide approach or thin section, and cutting element can more readily pass through through described approach or thin section and retain matrix 6550.In various embodiments, to being described further above, connecting link 6507 can comprise and is such as limited to one or more cast structure or material upsetting, and described one or more cast structure or material upsetting can be conducive to bending, fracture and/or the cutting of connecting link 6507.

In various embodiments, retain matrix and can comprise multiple reservation matrix element (such as, matrix element body 6505), described multiple reservation matrix element can embed in flexible material thin slice or material webs.In at least one embodiment, flexible material thin slice can by can the elastomeric material (such as siloxanes) of bio-absorbable be formed, and wherein said flexible thin sheet can produce the multiple holes be limited to wherein.In at least one this type of embodiment, solid flexible thin sheet can be molded into and form multiple hole in described flexible thin sheet middle punch.In various alternative embodiment, can flexible thin sheet be molded and in molding process, form the hole be limited to wherein.In any one situation in both cases, retain matrix element 6505 and such as can be inserted into and remain in flexible thin sheet.In some other embodiment, to similar above, flexible thin sheet can be formed at around matrix element 6505.In at least one embodiment, flexible thin sheet can be such as made up of woven net and/or other suitable material any.To being described further above, this woven net can be easy to crosscut.

Referring now to Figure 21 1 and 212, in various embodiments, comprise and retain matrix (such as, retain matrix 6250) closure system also can comprise covering (such as, covering 6670), when the top of staple lower limb 6221 extend to retain matrix 6250 end face 6257 above time, described covering can cover described top.In various embodiments, covering 6670 can be attached to and retain matrix 6250.In certain embodiments, covering 6670 and/or reservation matrix 6250 can comprise reservation structure, and covering 6670 can remain to and retain matrix 6250 by described reservation structure.In at least one embodiment, at least one binding agent can be utilized to be adhered to by covering 6670 and to retain matrix 6250.In at least one embodiment, covering 6670 can be made up of single layer, but covering 6670 is shown as and comprises two layers, describes in more detail as following.Main see Figure 21 2, in various embodiments, the end of staple lower limb 6221 can extend across the lower surface 6673 of covering 6670; But covering 6670 can comprise enough thickness, with the end face 6675 making staple end can not extend through covering 6670.Therefore, at least one this type of embodiment, the end of staple lower limb 6221 can not from covering 6670 projection.In various embodiments, covering 6670 can comprise multiple layer.In at least one this type of embodiment, covering 6670 can comprise ground floor 6671 and the second layer 6672.In at least one embodiment, ground floor 6671 and the second layer 6672 can be attached to each other, and wherein at least one embodiment, the second layer 6672 can comprise the lower surface 6676 being attached to ground floor 6671.In various embodiments, ground floor 6671 and the second layer 6672 can comprise different thickness, and in certain embodiments, it can comprise identical thickness.In at least one embodiment, ground floor 6671 and the second layer 6672 can comprise substantially the same width and/or length.In alternative embodiment, layer 6671 and 6672 can comprise different width and/or length.

In various embodiments, to being described further above, ground floor 6671 can be made up of compressible foam, Web materials and/or the hydrogel that can be cut by staple lower limb 6211.In at least one embodiment, the second layer 6672 can be made up of more tough and tensile material or skin (such as PGA and/or PDS) and/or any suitable backing material.In at least one this type of embodiment, staple lower limb 6221 can penetrate ground floor 6671; But in various embodiments, staple lower limb 6221 can penetrate the second layer 6672.In certain embodiments, the second layer 6672 can be made up of the material with enough elasticity and/or toughness, and the described material tolerable second layer 6672 is contacted by staple lower limb 6221 and is shifted, but is not cut by the staple end of staple lower limb 6221 or only marginally cut.Although not shown, but covering can comprise more than two layers, and one or more wherein in these layers can be resistance to infiltration.In at least one this type of embodiment, in use, retain matrix 6250 to locate against tissue and fastened and distally promote, the staple lower limb 6221 of staple 6220 is pushed through the retaining holes 6252 in tissue T and reservation matrix 6250, and enters in the ground floor 6271 of covering 6270.In various embodiments, the end of staple lower limb 6221 can not enter or at least substantially not enter in the second layer 6272 of covering 6270.After reservation matrix 6250 is properly positioned, jaw 6240 can be opened, and covering 6670 and reservation matrix 6250 can be dismantled from jaw 6240, as shown in Figure 21 1.As shown in Figure 21 1, jaw 6640 can keep more than one to retain matrix 6250 and covering 6670.In at least one this type of embodiment, jaw 6640 can comprise two passages 6679, the reservation matrix 6250 that described two passages 6679 can hold covering 6670 respectively wherein and locate relative to covering 6670, the tissue contacting surface 6251 making each retain matrix 6250 is leaned on downwards from the bottom of jaw 6240.In at least one this type of embodiment, reservation matrix 6250 and covering 6270 can be contained in jaw 6640 on every side of cutter slit 6678.In use, retain both matrix 6250 and covering 6670 to be deployed simultaneously and/or to be deployed in identical depth relative to the relative nail bin (such as storehouse 6200) of locating through it.Subsequently, in various embodiments, can cut fastened tissue by the cutting element traversing cutter slit 6678 along line of cut, wherein jaw 6640 can be opened subsequently again.In certain embodiments, covering 6670 can not be attached to and retain matrix 6250.In at least one this type of embodiment, covering 6670 can be positioned in passage 6679 and to be maintained in passage 6679 by the reservation matrix 6250 that can be fixed to jaw 6640.In various embodiments, each retain matrix 6250 can wider than and/or be longer than its corresponding covering 6670, make retain matrix 6250 entirety of its covering 6670 can be held in place.In certain embodiments, each retains matrix 6250 and such as can comprise identical width and/or length by its corresponding covering 6670.

In various embodiments, as mentioned above, closure system can comprise the material layer that can be attached to and retain matrix (such as, retaining matrix 6250).Referring now to Figure 21 5, at least one embodiment, material layer 6870 can be attached to the lower surface 6251 retaining matrix 6250.In certain embodiments, layer 6870 and/or reservation matrix 6250 can comprise reservation structure, and layer 6870 can remain to and retain matrix 6250 by described reservation structure.In at least one embodiment, at least one binding agent can be utilized to be adhered to by layer 6870 and to retain matrix 6250.In any case, layer 6870 can comprise lower surface or tissue contacting surface 6873, lower surface or tissue contacting surface 6873 can be worked as and retain matrix 6250 when moving downward retaining holes 6252 is engaged with staple lower limb 6221 towards staple 6220, lower surface or tissue contacting surface 6873 contact tissue T.In at least one this type of embodiment, layer 6870 can be made up of compressible material the foam of bio-absorbable (such as can), described compressible material can be compressed in retain matrix 6250 between lower surface 6251 and tissue T.In various embodiments, layer 6870 also can comprise at least one medicine storing and/or be absorbed in wherein, and described at least one medicine can be discharged by during compression at layer 6870 from layer 6870.In at least one embodiment, described medicine can comprise at least one tissue seal, hemorrhage and/or anti-biotic material (silver such as ionized and/or triclosan).In various embodiments, the compression of layer 6870 can extrude medicine from layer 6870, makes the whole of the surface of tissue T or is coated with medicine at least greatly.In addition, when layer 6870 compressed and staple lower limb 6221 penetrate tissue T and layer 6870 time, medicine such as can flow down along staple lower limb 6221 and treat by tissue that staple lower limb 6221 cuts.In various embodiments, retain the body of matrix 6250 and can comprise the ground floor be made up of biocompatible materials (such as titanium and/or rustless steel), and bottom 6870 can comprise by can the second layer that forms of bioabsorbable material (such as oxidized regenerated cellulose (ORC), as (liquid or be frozen dry) bioactivator such as fibrin and/or thrombin, glycerol, the Absorbable rod pig gelatin being in fluffy or foam configuration and/or the antibacterial such as the silver such as ionized and/or triclosan).In addition can comprise such as SurgicelNu-Knit by bioabsorbable material, SurgicelFibrillar, with the collagen/ORC(of trade name Promogran sale, it is the mixture with collagen matrix form construction), with the polyglycolic acid (PGA) that trade name Vicryl sells, polylactic acid (PLA or PLLA), PPDO (PDS), polyhydroxyalkanoatefrom (PHA), poliglecaprone 25(PGCL so that trade name Monocryl sells), polycaprolactone (PCL), and/or PGA, PLA, PDS, PHA, PGCL, and/or the complex of PCL.Although only illustrate a layer 6870 in Figure 21 5, but any fitness number target zone can be used.In at least one embodiment, the ground floor comprising the first medicine can be attached to and retain matrix 6250, and the second layer comprising the second medicine or different pharmaceutical can be attached to ground floor.In at least one this type of embodiment, can use multiple layer, wherein every one deck can comprise the different pharmaceutical and/or different drug regimens that are contained in wherein.

Referring now to Figure 21 3, in various embodiments, closure system can comprise the material layer 6770 being attached to the lower surface 6251 retaining matrix 6250.In certain embodiments, layer 6770 and/or reservation matrix 6250 can comprise reservation structure, and layer 6770 can remain to and retain matrix 6250 by described reservation structure.In at least one embodiment, at least one binding agent can be utilized to be adhered to by layer 6770 and to retain matrix 6250.In any case, layer 6770 can comprise lower surface or tissue contacting surface 6773, lower surface or tissue contacting surface 6773 can be worked as and retain matrix 6250 when moving downward retaining holes 6252 is engaged with staple lower limb 6221 towards staple 6220, lower surface or tissue contacting surface 6773 contact tissue T.In at least one this type of embodiment, layer 6770 can be made up of compressible material the foam of bio-absorbable (such as can), described compressible material can be compressed in retain matrix 6250 between surface 6251 and tissue T.In various embodiments, layer 6770 also can comprise one or more capsule or born of the same parents 6774, and described one or more capsule or born of the same parents can store at least one medicine wherein.See Figure 21 4, in certain embodiments, capsule 6774 can align with retaining holes 6252 or at least substantial alignment, and make when staple lower limb 6221 is pushed through tissue T and layer 6770, staple lower limb 6221 can pierce through capsule 6774 and/or in other words make capsule 6774 break.After capsule 6774 breaks, at least one medicine M be stored in capsule 6774 can flow out in tissue T.In at least one this type of embodiment, medicine M can comprise fluid, and described fluid can stay or rely on capillarity to flow down along staple lower limb 6221 and treat the tissue T of being cut by staple lower limb.As result above, the medicine be stored in capsule 6774 can provide topical therapeutic to tissue.In certain embodiments, different medicines can be stored in the capsule 6774 in thin slice 6770.Such as, the first medicine or the first drug regimen in first group of capsule 6774, can be stored, and different medicines or different drug regimens can be stored in second group of capsule.In various embodiments, layer 6770 can be made up of the siloxanes thin slice of flexibility, and capsule 6774 can represent the space in siloxanes thin slice.In at least one this type of embodiment, siloxanes thin slice can comprise two layers that can be attached to each other, and wherein capsule 6774 can be limited between described two layers.In various embodiments, layer 6770 can comprise one or more thin section or weakening part (such as local perforations), and described one or more thin section or weakening part can be conducive to leg 6221 and cut layer 6770 and capsule 6774 is broken.In certain embodiments, capsule 6774 can be positioned in fornix 6777 at least partially, wherein fornix 6777 upwards can extend from thin slice 6770.In at least one this type of embodiment, in the pit 6201 that can being positioned at least partially of fornix 6777 and/or capsule 6774 retains and formed in matrix 6250.In certain embodiments, capsule 6774 can comprise not interconnective independently born of the same parents.In some other embodiment, in capsule 6774 one or more can via extend through one or more paths of layer 6770, conduit and/or passage and mutually fluid be communicated with.Be published on August 24th, 2010 and the disclosure that name is called the U.S. Patent No. 7,780,685 of " ADHESIVEANDMECHANICALFASTENER " is incorporated herein by reference accordingly in full.

In various embodiments, to being described further above, nail bin comprising warehouse, staple and/or alignment matrix can be loaded in the first jaw of end effector, and similarly, reservation matrix and/or one or more covering can be loaded in the second jaw of end effector.Referring now to Figure 21 6, apparatus (such as storehouse loader 6990), in certain embodiments, can be used two or more fastener cartridge to be inserted in end effector simultaneously.In at least one embodiment; such as storehouse loader 6990 can comprise shank 6991 and storehouse carrier 6992; wherein storehouse carrier 6992 can comprise the first reserve part and the second reserve part; the warehouse 6210 of nail bin 6200 can be remained to storehouse carrier 6992 by described first reserve part; and described second reserve part can keep warehouse 6980, this warehouse 6980 support multiple protectiveness cap 6270 wherein and along warehouse 6980 lower surface support retain matrix 6250.In various embodiments, the first reserve part and the second reserve part can comprise one or more holding member separately, and described one or more holding member can engage warehouse 6210 and 6980 releasedly.Referring now to Figure 21 7 and Figure 21 8, in use, end effector can comprise the first jaw or bottom jaw 6230 and the second jaw or top jaw 6940, and wherein nail bin 6200 can be loaded in the first jaw 6230, and warehouse 6980 can be loaded in the second jaw 6940.In various scenarios, top jaw 6940 rotates to make position (Figure 21 8) by actuator 6235 from open position (Figure 21 7), and wherein the operation of actuator 6235 is described above, repeats no more for simplicity's sake herein.Referring now to Figure 21 8, once top jaw 6940 is in its make position, then the far-end 6993 of storehouse carrier 6992 can be inserted in end effector, in the first attachment that nail bin 6200 is slid in the first jaw 6230 through the far-end 6938 of the first jaw 6930 or passage 6939.Similarly, the far-end 6993 of storehouse carrier 6992 can be inserted in end effector, in the second attachment that warehouse 6980 is slid in the second jaw 6940 through the far-end 6948 of the second jaw 6940 or passage 6949.The surgeon of the shank 6991 of hand-held storehouse loader 6990 or other clinician can be each passed through passage 6939 and 6949 and promote nail bin 6200 and warehouse 6980, until nail bin 6200 and warehouse 6980 are placed in passage 6939 and 6949 completely.

When nail bin 6200 and warehouse 6980 are placed, nail bin 6200 and warehouse 6980 can engage the one or more reserve parts in its corresponding jaw 6230 and 6940 respectively, describe in more detail as following.Referring now to Figure 21 9, in any case, once nail bin 6200 and warehouse 6980 are placed, then storehouse loader 6990 can be dismantled from nail bin 6200 and warehouse 6980 and remove from end effector.In at least one this type of embodiment, for by nail bin 6200, the retention remained in the first jaw 6230 can be greater than the retention for nail bin 6200 being remained to storehouse carrier 6992, make when storehouse carrier 6992 is distally pushed out end effector, nail bin 6200 can remain on the first jaw 6230 rear.Similarly, for by warehouse 6980, the retention remained in the second jaw 6940 can be greater than the retention for warehouse 6940 being remained to storehouse carrier 6992, make when storehouse carrier 6992 is distally pushed out end effector, warehouse 6940 can remain on the second jaw 6940 rear.Once storehouse loader 6990 is removed from end effector, then the first loaded jaw 6230 and the second jaw 6940 loaded can position relative to by the tissue T be sewn.Referring now to Figure 22 0, the second jaw 6940 can move to firing position (Figure 22 0) from open position (Figure 21 9), so that the reservation matrix 6250 making warehouse 6980 carry and described multiple protectiveness cap 6270 engage with the staple 6220 being arranged in nail bin 6200.

Referring now to Figure 22 1 and Figure 22 2, second jaw 6940, can again be opened, and described multiple protectiveness cap 6270 and reservation matrix 6250 can be dismantled from warehouse 6980, make cap 6270 and retain matrix 6250 can keep engaging with tissue T and nail bin 6200.In at least one embodiment, warehouse 6980 can comprise multiple pit and one or more reservation slit, described multiple cap 6270 can be positioned in described multiple pit removedly, and reservation matrix 6250 can be remained to warehouse 6980 by described one or more reservation slit removedly.In various embodiments, after the second jaw 6940 is opened, warehouse 6980 can remain in the second jaw 6940 by the holding member engaged with warehouse 6980 of the second jaw 6940.In certain embodiments, warehouse 6980 can be worked as when the second jaw 6940 is opened and torn, and make a part for warehouse 6980 and cap 6270 and retain together with matrix 6250 implanted, and a part for warehouse 6980 is retained in the second jaw 6940.Similarly, refer again to Figure 22 1 and Figure 22 2, after the second jaw 6940 is opened, warehouse 6210 can remain in the first jaw 6230 by the holding member engaged with warehouse 6210 of the first jaw 6230.In certain embodiments, warehouse 6210 can be worked as when the first jaw 6230 is pulled away from the storehouse 6200 of having implanted and torn, make a part for warehouse 6210 implanted together with staple 6220 and alignment matrix 6260, and a part for warehouse 6210 remain in the first jaw 6230.Referring now to Figure 22 3-225, in various embodiments, what nail bin (the such as nail bin 6900) length that can comprise along warehouse 6910 extended one or morely longitudinally retains slits 6913, such as when nail bin 6900 is inserted in jaw 6930, described one or more slit 6913 that longitudinally retains can hold the one or more longitudinally reservation guide rails 6916 extended from jaw 6930 wherein.In use, at least one embodiment, such as, before nail bin 6900 slides through keeping the far-end 6938 of passage 6939, the end retaining slit 6913 can align with the far-end retaining guide rail 6916.

Refer again to Figure 22 5, in various embodiments, jaw 6940 can comprise two and keep passage 6949, and wherein each maintenance passage 6949 can hold the warehouse 6980 comprising multiple cap 6270 and retain matrix 6250 wherein.In certain embodiments, each warehouse 6980 can comprise one or more longitudinally maintenance shoulder 6917, described one or more longitudinally keep shoulder work as warehouse 6980 is inserted in jaw 6940 its when keeping in passage 6949 accordingly, described one or more shoulder 6917 that longitudinally keeps slides along one or more longitudinally reservation guide rails 6918 of the second jaw 6940.In various embodiments, when warehouse 6980 is dismantled from cap 6270 stored therein and reservation matrix 6250, retain guide rail 6918 and keep shoulder 6917 to be remained in the second jaw 6940 by warehouse 6980 collaboratively.Referring now to Figure 22 4, in various embodiments, second jaw 6940 also can comprise the one or more distally projection or holding member 6915 that extend from it, and warehouse 6980 can be locked in it and keep accordingly in passage by described one or more distally projection or holding member removedly.In at least one this type of embodiment, second jaw 6940 can comprise distally projection 6915, distally projection 6915 keeps passage 6949 can and to be located so that when warehouse 6980 is inserted in passage 6949 relative to each, each warehouse 6980 can around projection 6915 flexing, wherein, just when warehouse 6915 is placed in passage 6949 completely, the far-end of warehouse 6980 can clean projection 6915 and by being buckled in above projection 6915.Removed after being previously used at warehouse 6980, as mentioned above, warehouse 6980 can be withdrawn into above projection 6915 and it is removed from maintenance passage 6949.To similar above, first jaw 6930 can comprise the one or more distally extended from it and retain projection 6914, described one or more distally retains projection can work as nail bin 6900 when being laid completely, and described one or more distally reservation projection is accommodated in one or more reservation groove in warehouse 6910 or slit 6912(Figure 22 3) in.

In various embodiments, to being described further above, the first fastener cartridge being wherein positioned with multiple first securing member can be positioned in the first jaw of surgical fastening device, and the second fastener cartridge being wherein positioned with multiple second securing member can be positioned in the second jaw of surgical fastening device.In use, the first jaw and/or the second jaw can move towards another one, to make the first securing member engage with the second securing member and be fixed on therebetween by tissue.In certain embodiments, when the first securing member engages with the second securing member, the first fastener cartridge can engage with the second fastener cartridge.In at least one embodiment, the body of the first fastener cartridge can be made up of the first compressible material, and the body of the second fastener cartridge can be made up of the second compressible material, and wherein the first noumenon and/or the second body can be compressed against fastened tissue.Organize fastened after, the first jaw can away from implanted first fastener cartridge motion, and the second jaw can away from implanted second fastener cartridge motion.Subsequently, the first jaw can be loaded with another the first fastener cartridge or like again, and the second jaw can load another the second fastener cartridge or like again, and can reuse surgical fasteners tool.Although staple can be used in certain embodiments, but also can dream up other embodiment of the securing member (what such as lock together when being bonded with each other is divided into two-part securing member) comprising other type.In at least one this type of embodiment, the first fastener cartridge can comprise the first storage part for storing the first fastener portion, and the second fastener cartridge can comprise the second storage part for storing the second fastener portion.In various embodiments, fastening system as herein described can utilize and comprise the material of any proper types and/or the securing member of form.In certain embodiments, securing member can comprise and penetrates component.This component that penetrates can be such as made up of polymer, complex and/or multiple field substrate.The example of multiple field substrate can be the wire rod or sheet substrate with elastomer or polymer coating.It can be thin thin slice, and is formed to make to penetrate component and is oriented to perpendicular to or is at least substantially perpendicular to connecting elements.Penetrate component and can comprise the profile of rectangle, semicircular profile and/or any crossbeam profile.In various embodiments, any suitable method (such as wire rod extrusion method) can be utilized to manufacture securing member as herein described.Another kind of probability uses precision machining method to penetrate component to what form hollow.These penetrate component can by being different from wire rod extrusion method and using the method for combination of materials to process.

As mentioned above, the top through reservation matrix projection of staple lower limb can be covered by one or more cap and/or covering.In certain embodiments, staple lower limb end inserted through reservation matrix after deformable.In at least one embodiment, also can comprise for keeping retaining the jaw of matrix the anvil block pit being positioned at above retaining holes and/or aliging with retaining holes, described anvil block pit can make staple lower limb be out of shape when staple lower limb is projected on and retains above matrix.In various embodiments, the staple lower limb of each staple can be such as inwardly curling towards the center each other and/or towards staple.In some other embodiment, one or more in the staple lower limb of staple can away from other staple lower limb and/or outwards curling away from the center of staple.In various embodiments, no matter staple lower limb is curling along which direction, the end of staple lower limb all can contact the body that retains matrix and can not again enter by the fastening tissue of staple.In at least one embodiment, staple lower limb is can be locked in reservation matrix in location through the distortion retained after matrix.

Referring now to Figure 22 6 and Figure 22 7, in various embodiments, surgery suturing appliance (such as, surgical stapling device 7000) can comprise the first jaw 7030 and the second jaw 7040, wherein the second jaw 7040 by the motion of actuator 6235 towards and move away from the first jaw 7030.The operation of actuator 6235 is described above, repeats no more for simplicity's sake herein.In various embodiments, the first jaw 7030 can comprise far-end 7031 and near-end 7032, and wherein the first jaw 7030 can be limited to the passage extended between far-end 7031 and near-end 7032, and described passage can hold nail bin.For ease of diagram, do not show the warehouse of this nail bin in Figure 22 6, but this nail bin can comprise warehouse, is positioned at the staple 6220 of warehouse and is positioned at the staple driver 7012 below staple 6220.In certain embodiments, although for simplicity's sake not shown in Figure 22 6, but reservation matrix (such as retain matrix 6250) can remain on staple 6220 and/or move reservation matrix to move to as mentioned above and engages with the leg of staple 6220 by the second jaw 7040.In at least one embodiment, surgical stapling device 7000 also can comprise the sledge 7010 being such as arranged in the first jaw 7030, and sledge 7010 proximally 7032 can to slide and reservation matrix towards the second jaw 7040 promotes staple driver 7012 and the staple 6220 that is supported on staple driver 7012 from the far-end 7031 of the first jaw 7030.In other embodiment various, such as sledge 7010 can proximally 7032 distally 7031 move, to dispose staple 6020.In at least one embodiment, sledge 7010 can comprise slope or the cam 7011 of one or more inclination, and the slope of described one or more inclination or cam also upwards can promote staple driver 7012 in staple driver 7012 slid underneath.In various embodiments, surgical stapling device 7000 also can comprise the pull bar or push rod that are such as operationally connected to sledge 7010, and described pull bar or push rod proximally and/or distally move by the actuator that is positioned on the shank of surgical stapling device 7000 and/or axle.

Refer again to Figure 22 6, in various embodiments, the second jaw 7040 of surgical stapling device 7000 can comprise framework 7041, far-end 7048 and the near-end 7049 with far-end 7048 relative localization.In certain embodiments, second jaw 7040 also can comprise guidance system, described guidance system comprises one or more guide rails (such as guide rail 7045 and 7046) that the longitudinal axis along framework 7041 extends, describe in more detail as following, described one or more guide rail can guide the staple lower limb the one or more anvil block making it be out of shape or cam that can engage staple 6220 after the staple lower limb 6221 of staple 6220 is through reservation matrix.In at least one this type of embodiment, guide rail 7045 and 7046 can comprise along guiding wire rod or cable, and described guiding wire rod or cable such as return along the top of framework 7041 or end face along the top of framework 7041 or end face, around distally post 7047 and extend.As mentioned above, and it is now main see Figure 22 8 and Figure 23 0, in various embodiments, second jaw 7040 also can comprise one or more anvil block or cam (such as the first anvil block 7050 and the second anvil block 7060), described one or more anvil block or cam longitudinally can move along the second jaw 7040, to make described leg be out of shape at the leg of staple 6220 after retaining matrix.In at least one embodiment, surgical stapling device 7000 also can comprise the first anvil block driver or actuator 7051 that are connected to and/or are operationally connected to the first anvil block 7050, and this first anvil block driver or actuator can proximally tractive first anvil blocks 7050 and/or distally promote the first anvil block 7050.Similarly, in at least one embodiment, surgical stapling device 7000 also can comprise the second anvil block driver or the actuator being connected to and/or being operationally connected to the second anvil block 7060, and described second anvil block driver or actuator distally can promote the second anvil block 7060 and/or proximally tractive second anvil block 7060.In various embodiments, the first anvil block 7050 can comprise guide groove 7052, and the second anvil block 7060 can comprise guide groove 7062, and guide rail 7045 or guide rail 7046 can be slidably received within wherein by this guide groove 7052 and guide groove 7062 respectively.In at least one this type of embodiment, guide rail 7045 and 7046 can be closely received in guide groove 7052 and 7062, makes to prevent or at least to limit guide rail 7045 and 7046, with between guide groove 7052 and 7062, relative lateral movement or side-to-side movement occurs.

In certain embodiments, to being described further above, proximally can pull the first anvil block 7050 and distally can pull the second anvil block 7060.See Figure 22 6, at least one embodiment, guide rail 7045 and 7046 and distally post 7047 can comprise pulley system, and described pulley system can distally tractive second anvil block 7060 and/or proximally tractive second anvil block 7060.In at least one this type of embodiment, guide rail 7045 and guide rail 7046 can comprise the continuous wire or cable that extend around distally post 7047, and a part for wherein said continuous wire can be pulled that wire rod is taken turns around distally post 7047 and turn.In various embodiments, guide rail 7046 such as can be mounted to the second anvil block 7060, make when continuous cable turns along first direction wheel, second anvil block 7060 can be pulled to distally towards the far-end 7048 of jaw 7040, and when continuous cable turns along second direction or rightabout wheel, the second anvil block 7060 can proximally 7049 and be pulled to nearside.Referring now to Figure 22 8, at least one embodiment, guide rail 7046 can be fixed in guide groove 7062, makes to transmit pulling force betwixt.In at least one this type of embodiment, guide rail 7045 can slide in another guide groove 7062.In various embodiments, the mode that first anvil block 7050 can have nothing to do with the second anvil block 7060 works, and pulley system and the guide groove 7052 be limited in the first anvil block 7050 can hold guide rail 7045 and 7046 slidably, make to allow pulley system and carry out relative motion between guide groove 7052 and guide rail 7045 and 7046.In various embodiments, the continuous cable forming guide rail 7045 and 7046 can have enough flexibility, to adapt to opening and closing of top jaw 7040.Continuous cable also can have enough flexibility to adapt to the second jaw 7060 moving both vertically toward and away from bottom jaw 7030, hereafter will describe in more detail.

Refer again to Figure 22 8 and Figure 23 0, in various embodiments, first anvil block 7050 can comprise the cam follower 7055 extended from it, and cam follower 7055 can ride one or more cam slot in the framework 7041 being defined in the second jaw 7040 or guide groove (such as cam slot 7070(Figure 23 1)) in.More particularly, in at least one embodiment, framework 7041 can comprise the second cam 7070 of the first cam slot 7070 along the first side longitudinal extension of framework 7041 and the second side along framework 7041 or opposite side longitudinal extension, the cam follower 7055 wherein extended from the first side of the first anvil block 7050 can ride in the first cam slot 7070, and the cam follower 7055 extended from the second side of the first anvil block 7050 can ride in the second cam slot 7070.In at least one this type of embodiment, the profile of each cam slot 7070 can be identical or at least substantially the same, and can mutually align or at least substantial alignment.Similarly, in various embodiments, the second anvil block 7060 can comprise the cam follower 7065 extended from it, and cam follower 7065 can ride the cam slot 7070(Figure 23 1 in the framework 7041 being limited to the second jaw 7040) in.More particularly, in at least one embodiment, the cam follower 7065 extended from the first side of the second anvil block 7060 can ride in the first cam slot 7070, and the cam follower 7065 extended from the second side of the second anvil block 7060 can ride in the second cam slot 7070.In use, the cam follower 7055 of the first anvil block 7050 and the cam follower 7065 of the second anvil block 7060 can slide in cam slot 7070, make when the first anvil block 7050 and the second anvil block 7060 are pulled to nearside and/or are pushed to distally, the first anvil block 7050 and the second anvil block 7060 slide along the profile of cam slot 7070.In various embodiments, each cam slot 7070 can comprise multiple part or top 7071 and multiple drive portion or bottom 7072 of resting, described multiple rest portion or top 7071 and described multiple driver portion or bottom 7072 can at anvil block 7050 and 7060 longitudinally (namely, between the far-end 7048 and near-end 7049 of framework 7041) move while vertically (namely, toward and away from bottom jaw 7030) motion anvil block 7050 and 7060, describe in more detail as following.

When surgical stapling device 7000 is in non-cock, see Figure 23 1, the first anvil block 7050 can be located in far-end 7048 place of framework 7041, and the second anvil block 7060 can be located in near-end 7049 place of framework 7041; In addition, referring now to Figure 23 2, when surgical stapling device 7000 is in non-cock, the staple 6220 being arranged in the first jaw 7030 can not yet be inserted into tissue T and/or be arranged in the reservation matrix above tissue T.Referring now to Figure 23 3, in use, staple driver 7012 can upwards drive staple 6220 in the staple cavity 7033 of nail bin; In addition, the first anvil block 7050 can from the far-end 7048 of framework 7041 distally 7049 proximal motion, to engage the staple lower limb 6221 of staple 6220.In at least one embodiment, staple 6220 can upwards be driven before the first anvil block 7050 engages with the staple lower limb 6221 of staple 6220.In various embodiments, before the first anvil block 7050 is advanced into contact staple lower limb 6221, sledge 7010 can to all staple 6220 of deploy, or alternatively, sledge 7010 proximally can move while the first anvil block 7050 proximally moves, but sledge 7010 can guide the first anvil block 7050 staple 6220 to be deployed in the first anvil block 7050 front fully.In various embodiments, as shown in Figure 23 3, cam slot 7070 can or be configured such that such as when the first cam 7050 is through the portion of resting or top, and the profiled surface (such as profiled surface or cam face 7053 and 7054) of the first cam 7050 can contact at least some staple lower limb 6221 in staple lower limb 6221.In various scenarios, the cam follower 7055 of the first anvil block 7050 can be positioned in the portion of resting 7071 of cam slot 7070 respectively, make profiled surface 7053 and 7054 be in the position of raising, and make when during anvil block 7050 is thus through the portion of resting, staple lower limb 6221 is only partly out of shape.When the first cam 7050 moves further along cam slot 7070, as shown in Figure 23 4, in the drive division that the cam follower 7055 of the first anvil block 7050 can be driven to cam slot 7070 or bottom 7072, profiled surface 7053 and 7054 is moved downward vertically, to be urged in its configuration be shaped completely by staple lower limb 6021 towards staple lower limb 6021.Subsequently, when the first anvil block 7050 is advanced along cam slot 7070 further, the first anvil block 7050 can be rested in portion 7071 by upwards vertical drive another group to cam slot 7070.As shown in Figure 23 3 and Figure 23 4, reader it should be noted that the first anvil block 7050 only can engage some staple lower limb and not engage other staple lower limb.In at least one this type of embodiment, the first anvil block 7050 such as only can make one group of staple lower limb distortion of the distal staple lower limb 6221 comprising staple 6220.In at least one this type of embodiment, the first anvil block 7050 can make distal staple lower limb 6221 towards the center deformation of staple 6220.In various embodiments, each proximal staple lower limb 6221 all can twice by the first anvil block 7050(namely, by the first profiled surface 7053 and the second profiled surface 7054 of aliging with the first profiled surface 7053) contact.In at least one this type of embodiment, when the first anvil block 7050 is in the portion of resting or top, first profiled surface 7053 can make distal staple lower limb 6221 be deformed into portion deforms configuration, and when the first anvil block 7050 moves in drive division or bottom, the second profiled surface 7054 can make distal staple lower limb 6221 be deformed into complete shaped configuration.Referring now to Figure 22 8 and Figure 22 9, in various embodiments, first anvil block 7050 can comprise multiple first profiled surface 7053 and multiple second profiled surface 7054, to make the distal staple lower limb 6221 of staple 6220 be out of shape when staple lower limb 6221 is aligned to more than a line or a line.In various embodiments, as hereafter described in more detail, such as the second anvil block 7060 can make the proximal staple lower limb 6221 of staple 6020 be out of shape.

In various embodiments, to being described further above, the first anvil block 7050 can move to near-end 7049 from the far-end 7048 of framework 7041, to make all distal staple lower limbs 6221 of staple 6220 be out of shape.Reader should note, first anvil block 7050 can relative to undeformed proximal staple lower limb 6221 upwards and move downward, and for adapting to this relative motion, in various embodiments, first anvil block 7050 can comprise one or more clearance slot 7057(Figure 23 0), described one or more clearance slot 7057 can be worked as when the first anvil block 7050 makes distal staple lower limb 6221 bend and hold unbent proximal staple lower limb 6221.Similarly, refer again to Figure 22 8, second anvil block 7060 can comprise clearance slot 7067, and this clearance slot can be worked as the first anvil block 7050 and adapt to moving both vertically of the first cam actuator 7051 moved up and down when it rests and moves between portion and drive division as mentioned above.After all distal staple lower limbs 6221 are bent, at least one embodiment, anvil block actuator 7061 can make the second anvil block 7060 move to far-end 7048 from the near-end 7049 of framework 7041.To similar above, referring now to Figure 23 5, the cam follower 7065 of such as the second anvil block 7060 can slide in cam slot 7070, and the second anvil block 7060 is moved, to make proximal staple lower limb 6221 towards the center of staple 6220 to internal strain between the portion of resting or top and drive division or bottom.To similar above, second anvil block 7060 can comprise multiple first and to be shaped or cam face 7063 and multiple second is shaped or cam face 7064, and described multiple first is shaped or cam face 7063 and described multiple second is shaped or cam face 7064 can make in proximal staple lower limb 6021 respectively is one or morely out of shape at least in part and/or is badly deformed.Refer again to Figure 22 9, second anvil block 7060 can comprise multiple first profiled surface 7063 and multiple second profiled surface 7064, and described multiple first profiled surface 7063 and described multiple second profiled surface 7064 can make the proximal staple lower limb 6221 of the staple 6220 being arranged in multiple row or many lines be out of shape.Same as shown in Figure 22 9, first profiled surface 7063 of the second anvil block 7060 and the second profiled surface 7064 can not align with the first profiled surface 7053 of the first anvil block 7050 and the second profiled surface 7054, wherein as a result, the proximal leg 6221 of staple 6220 can be arranged in different row or line from the distally leg 6221 of staple 6220.Reader it shall yet further be noted that the second anvil block 7060 can promote the first anvil block 7050 when the second anvil block 7060 distally moves.In at least one this type of embodiment, the first anvil block 7050 can push back in the far-end 7048 of framework 7041 by the second anvil block 7060, makes the first anvil block 7050 can be back to its initial position or non-firing position.After all proximal staple lower limbs 6221 of staple 6220 are all out of shape, the second anvil block 7060 proximally can be retracted and is back to its initial position or non-firing position.Thus, surgical stapling device 7000 can reset to and make to locate new nail bin in the first jaw 7030, and can locate new reservation matrix in the second jaw 7040, to reuse surgical stapling device 7000.

In various embodiments, as mentioned above, surgical stapling device can comprise two or more anvil blocks, and two or more anvil blocks described can axially be advanced to engage the leg of multiple staple along transverse direction.In certain embodiments, surgical stapling device can comprise the anvil block proximally moved, such as, to make first group of staple lower limb distortion and such as to make second group of staple lower limb distortion.In at least one this type of embodiment, this anvil block can comprise such as towards the profiled surface of nearside and the profiled surface towards distally.

Referring now to Figure 23 6, in various embodiments, anvil block (such as, anvil block 7140) multiple shaping pits 7142 that can comprise lower surface or tissue contacting surface 7141 and be defined in lower surface or tissue contacting surface 7141.In at least one embodiment, anvil block 7140 can comprise more than plate (such as crater plate 7143) that can be welded in framework 7144.In at least one this type of embodiment, each crater plate 7143 all can be positioned in the plate passage 7145 in framework 7144 and to be soldered to framework 7144 to form longitudinal measure part 7147 by extend through the welding slit 7146 of framework 7144.In various embodiments, longitudinal measure part 7147 such as can comprise a series of spatially isolated pads extended along the sequential welding fitting of the whole length extension of welding slit 7146 or the length of edge welding slit 7146.In various embodiments, each crater plate 7143 all can comprise two or more plate portions be soldered to together.In at least one this type of embodiment, each crater plate 7143 all can comprise can along seam 7,148 first plate portion 7143a welded together and the second plate portion 7143b.In various embodiments, be soldered in the plate passage 7145 in framework 7144 at plate 7143 before, together with the first plate portion 7143a of each plate 7143 can be soldered to the second plate portion 7143b.In at least one this type of embodiment, the first plate portion 7143a and the second plate portion 7143b can comprise the profile (such as the zigzag appearance shown in Figure 23 6) that can fit together the cooperation forming impervious seam 7148.In at least one embodiment, each plate 7143 can comprise such as about .02 " height, described height can, higher than the degree of depth of plate passage 7145, make the tissue contacting surface 7141 of plate 7143 extend from the framework 7044 of anvil block 7040.Referring now to Figure 23 7, in certain embodiments, plate 7143 can such as connect together by being positioned at least one weldment 7149 of the far-end of plate 7143.

As shown in Figure 23 6 and Figure 23 7, each crater plate 7143 all can comprise the multiple shaping pits 7142 be defined in wherein.In various embodiments, by any suitable manufacture method (such as Ginding process and/or electrode combustion method) forming shaped pit 7142 in plate 7143.Referring now to Figure 23 8 and Figure 23 9, in at least one this type of embodiment, such as manufacture each shaping pit 7142 by following methods: first form deep-well 7150, that form arch around deep-well 7150 subsequently or curved surface 7151, then forms staple lower limb guiding groove 7152 in curved surface 7151.In other embodiment various, any suitable order can perform these steps.Referring now to Figure 24 0, in various embodiments, staple formation pit 7142 can be formed to make the inner edge 7153 of shaping pit spaced apart by consistent or at least substantially consistent gap 7154.In at least one this type of embodiment, gap 7154 can be such as about .008 ".In addition, at least one this type of embodiment, shaping pit 7142 can along two or more row or line location, and the centrage of shaping pit 7142 can be spaced apart by consistent or at least substantially consistent spacing 7155.In at least one this type of embodiment, the spacing 7155 between centrage can be such as about .035 ".Refer again to Figure 24 0, in various embodiments, each shaping pit 7142 can be tapered between narrow width 7156 and wide width 7157.In at least one this type of embodiment, such as narrow width 7156 can be about .045 ", and wide width 7157 can be about .075 ".In various embodiments, plate 7143 can be made up of the material identical with framework 7144.In at least one this type of embodiment, both plate 7143 and framework 7144 all can be such as made up of rustless steel (such as the rustless steel of 300 series or 400 series) and/or titanium.In other embodiment various, plate 7143 and framework 7144 can be made up of different materials.In at least one this type of embodiment, plate 7143 can be such as made up of ceramic material, and framework 7144 can be such as made up of rustless steel and/or titanium.In various scenarios, according to used material, such as, substituting except above-mentioned welding method or as above-mentioned welding method, also can use at least one method for welding to be fixed in framework 7144 by plate 7143.

Referring now to Figure 24 1-243, in various embodiments, anvil block 7240 can comprise framework 7244 and can be inserted into the multiple crater plate 7243 in framework 7244.To similar above, each crater plate 7243 can comprise the multiple shaping pits 7242 be limited to wherein.In at least one embodiment, anvil block framework 7244 can comprise the reservation slit 7246 be limited to wherein, and this reservation slit can hold the reservation guide rail 7247 extended from crater plate 7243.For crater plate 7243 is assembled into anvil block framework 7244, the sidewall 7245 of this anvil block framework 7244 can outwards flexing or expansion (as shown in Figure 24 2), to make reservation slit 7246 broaden, thus make each reservation slit 7246 can hold the reservation guide rail 7247 of crater plate 7243 wherein.Be positioned in reservation slit 7246 once retain guide rail 7247, sidewall 7245 can be released (as shown in Figure 24 3), thus allows that framework 7244 is retracted with elastic type and/or is back to its non-flexion.In this case, retain slit 7246 regracting and therefore reservation guide rail 7247 be captured in wherein.In certain embodiments, reservation guide rail 7247 and/or reservation slit 7246 can comprise the conical surface of one or more cooperation; After the reservation slit 7246 of flexing is released, the conical surface of described one or more cooperation can be formed and can remain on retaining guide rail 7247 the taper lock joint retained in slit 7246.To similar above, crater plate 7243 can be made up of the material identical or different with framework 7244.In at least one this type of embodiment, plate 7243 can be such as made up of ceramic material, and framework 7244 can be such as made up of rustless steel and/or titanium.In various scenarios, according to used material, such as, at least one method for welding and/or at least one welding method can be used to be fixed in framework 7244 by plate 7243.

Can be namely process apparatus design disclosed in this invention after single uses, or they can be designed to can repeatedly use.But in any one situation, described device all can be repaired, to reuse after using at least one times.Again the combination in any that can comprise the steps is recovered: dismantle this device, then clean or replace some part and assemble subsequently.Particularly, described device can be dismantled, and combination in any can optionally replace or remove specific component or the part of this device arbitrary number.Cleaning and/or displacement specific part after, this device can re-assembly to use subsequently at restoration facilities place, or is re-assemblied by surgical team before being about to carry out surgical operation.One skilled in the art will appreciate that the reparation of device can utilize the multiple technology for dismantling, cleaning/replace and re-assembly.The use of these technology and the prosthetic device of gained are all within the scope of the invention.

Preferably, device as herein described is processed before surgery.First, obtain new or with the device crossed, and where necessary device is cleaned.Then device is carried out disinfection.In a kind of disinfection technology, this device is placed in and closes and the container sealed, such as, in plastics or TYVEK bag.Then container and device are placed in the radiation area that can penetrate this container, such as gamma-radiation, x-ray or high energy electron.Antibacterial on device and in container kills by radiation.Then the device after sterilizing is kept in disinfecting container.Apparatus is kept aseptic by sealing container, until open this container in armarium.

With way of reference in full or be partly incorporated to any patent herein, announcement or other open material and all only with in existing definition of the present invention, statement or the afoul scope of other open material be not incorporated to herein at be incorporated to material.Thus, under the degree of necessity, the disclosure clearly set forth herein will replace any material that conflicts mutually be incorporated herein by reference.If according to state be incorporated herein by reference but with existing definition as herein described, statement or the afoul any material of other open material or its part, be incorporated to herein under only not producing the degree of conflict between be incorporated to material and existing open material.

Although by the present invention exemplarily property design be described, can also modify to the present invention in essence of the present disclosure and scope.Therefore present patent application is intended to contain any modification, purposes or the remodeling that adopt its general principles.In addition, present patent application is intended to contain in field belonging to the present invention and belongs to the known or used pattern different from the disclosure had in practical framework.

Claims (14)

1. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

Can support the first jaw of staple, described staple comprises staple lower limb; And

Comprise the second jaw of keeper, described keeper can support the matrix element relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the cam that connects of described actuator operable ground, wherein said cam can be out of shape along described longitudinal axis to make described staple lower limb; And

Cam slot, described cam slot can guide described cam along predefined paths, wherein said cam slot comprises the portion of resting and drive portion, the wherein said portion of resting is disposed in described second jaw, make when resting in portion described in described cam is in, described cam can contact described staple lower limb, and wherein said drive portion is disposed in described second jaw, make when described cam is in described drive portion, described cam makes described staple lower limb be out of shape.

2. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

Can support the first jaw of staple, described staple comprises staple lower limb; And

Comprise the second jaw of keeper, described keeper can support the matrix element relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the cam that connects of described actuator operable ground, wherein said cam can be out of shape along described longitudinal axis to make described staple lower limb; And

Cam actuator, described cam actuator can work as described cam makes described cam move towards with away from described first jaw when described longitudinal axis moves in the vertical, wherein said cam actuator can make described cam move between at least one activation point and at least one rest position, and wherein said cam is oriented to the described staple lower limb distortion making described staple when described cam is at least one activation point described.

3. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Comprise the second jaw of keeper, described keeper can support the described implantable matrix element relative with the described staple supported by described first jaw, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb; And

With the cam that connects of described actuator operable ground, wherein said cam can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape, wherein said cam comprises the first cam face, described first cam face can work as described cam makes one or more staple lower limb be out of shape when first direction moves, and wherein said cam also comprises the second cam face, described second cam face can work as described cam makes one or more staple lower limb be out of shape when second direction is moved.

4. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Comprise the second jaw of keeper, described keeper can support the described implantable matrix element relative with the described staple supported by described first jaw, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the cam that connects of described actuator operable ground, wherein said cam can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape; And

Nail bin, described nail bin comprises described staple, wherein said nail bin is positioned in described first jaw, wherein said nail bin comprises first row staple and second row staple, wherein said cam proximally can move to distal position to make the described staple lower limb distortion of the described staple in described first row staple in position, and wherein said cam can move to described proximal position to make the described staple lower limb distortion of the described staple described second row staple from described distal position.

5. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Comprise the second jaw of keeper, described keeper can support the described implantable matrix element relative with the described staple supported by described first jaw, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the cam that connects of described actuator operable ground, wherein said cam can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape; And

Nail bin, described nail bin comprises described staple, wherein said nail bin is positioned in described first jaw, wherein said nail bin comprises first group of staple and second group of staple, wherein said cam can move along distal direction the described staple lower limb distortion making the described staple in described first group of staple, and wherein said cam can move the described staple lower limb in the described staple in described second group of staple is out of shape along proximal direction.

6. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Comprise the second jaw of keeper, described keeper can support the described implantable matrix element relative with the described staple supported by described first jaw, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the cam that connects of described actuator operable ground, wherein said cam can along described longitudinal axis to contact described staple lower limb and to make described staple lower limb be out of shape, wherein said cam is the first cam, described first cam can make first group of staple lower limb distortion, and wherein said surgery suturing appliance also comprises second cam that can make second group of staple lower limb distortion, wherein said first cam can move to make described first group of staple lower limb distortion along distal direction, and wherein said second cam can move to make described second group of staple lower limb distortion along proximal direction.

7. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Comprise the second jaw of keeper, described keeper can support the described implantable matrix element relative with the described staple supported by described first jaw, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the cam that connects of described actuator operable ground, wherein said cam can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape; And

Nail bin, described nail bin can keep described staple, the described staple lower limb of one row is located along the line, wherein said cam comprises first cam face and the second cam face of locating along described line, and wherein said first cam face and described second cam face can contact each the staple lower limb in described line and each the staple lower limb in described line is out of shape.

8. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Second jaw relative with described first jaw, wherein said second jaw comprises keeper, described keeper can support described implantable matrix element, wherein said implantable matrix element is relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the anvil block that connects of described actuator operable ground, wherein said anvil block can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape; And

Guide groove, described guide groove can guide described anvil block along predefined paths.

9. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

Can support the first jaw of staple, described staple comprises staple lower limb; And

Comprise the second jaw of keeper, described keeper can support the matrix element relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the anvil block that connects of described actuator operable ground, wherein said anvil block can be out of shape along described longitudinal axis to make described staple lower limb; And

Guide groove, described guide groove can guide described anvil block along predefined paths, wherein said guide groove comprises high portion and lower curtate, wherein said high portion is disposed in described second jaw, make when described anvil block is in described high portion, described anvil block can contact described staple lower limb, and wherein said lower curtate is disposed in described second jaw, make when described anvil block is in described lower curtate, described anvil block makes described staple lower limb be out of shape.

10. a surgery suturing appliance, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Second jaw relative with described first jaw, wherein said second jaw comprises keeper, described keeper can support described implantable matrix element, wherein said implantable matrix element is relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb; And

With the anvil block that connects of described actuator operable ground, wherein said anvil block can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape, wherein said anvil block comprises the first anvil face, described first anvil face can work as described anvil block makes one or more staple lower limb be out of shape when first direction moves, and wherein said anvil block also comprises the second anvil face, described second anvil face can work as described anvil block makes one or more staple lower limb be out of shape when second direction is moved.

11. 1 kinds of surgery suturing appliances, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Second jaw relative with described first jaw, wherein said second jaw comprises keeper, described keeper can support described implantable matrix element, wherein said implantable matrix element is relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the anvil block that connects of described actuator operable ground, wherein said anvil block can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape; And

Nail bin, described nail bin comprises described staple, wherein said nail bin is positioned in described first jaw, wherein said nail bin comprises first group of staple and second group of staple, wherein said anvil block can move along distal direction the described staple lower limb distortion making the described staple in described first group of staple, and wherein said anvil block can move along proximal direction the described staple lower limb distortion making the described staple in described second group of staple.

12. 1 kinds of surgery suturing appliances, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Second jaw relative with described first jaw, wherein said second jaw comprises keeper, described keeper can support described implantable matrix element, wherein said implantable matrix element is relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the anvil block that connects of described actuator operable ground, wherein said anvil block can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape, wherein said anvil block is the first anvil block, described first anvil block can make first group of staple lower limb distortion, and wherein said surgery suturing appliance also comprises second anvil block that can make second group of staple lower limb distortion.

13. 1 kinds of surgery suturing appliances, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

Implantable matrix element;

Comprise multiple staples of staple lower limb;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

The first jaw of described staple can be supported; And

Second jaw relative with described first jaw, wherein said second jaw comprises keeper, described keeper can support described implantable matrix element, wherein said implantable matrix element is relative with described staple, and wherein said second jaw can towards described first jaw motion to make described matrix element engage with described staple lower limb;

With the anvil block that connects of described actuator operable ground, wherein said anvil block can along described longitudinal axis towards described proximal movement to contact described staple lower limb and to make described staple lower limb be out of shape; And

Nail bin, described nail bin can keep described staple, the described staple lower limb of one row is located along the line, wherein said anvil block comprises first textured surface and the second textured surface of locating along described line, and wherein said first textured surface and described second textured surface can contact each the staple lower limb in described line and each the staple lower limb in described line is out of shape.

14. 1 kinds of surgery suturing appliances, comprising:

Comprise the shank of actuator;

From the axle that described shank extends;

From the end effector that described axle extends, described end effector comprises:

Be attached to the near-end of described axle;

The far-end relative with described near-end;

Longitudinal axis, described longitudinal axis extends between described near-end and described far-end;

Can support the first jaw of staple, described staple comprises staple lower limb; And

Second jaw, wherein said second jaw can relative to described first jaw motion;

With the cam that connects of described actuator operable ground, wherein said cam can be out of shape along described longitudinal axis to make described staple lower limb; And

Cam slot, described cam slot can guide described cam along predefined paths, wherein said cam slot comprises the portion of resting and drive portion, the wherein said portion of resting is disposed in described second jaw, make when resting in portion described in described cam is in, described cam can contact described staple lower limb, and wherein said drive portion is disposed in described second jaw, make when described cam is in described drive portion, described cam makes described staple lower limb be out of shape.