Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS1963636 A
Publication typeGrant
Publication dateJun 19, 1934
Filing dateJun 17, 1932
Publication numberUS 1963636 A, US 1963636A, US-A-1963636, US1963636 A, US1963636A
InventorsFrederick Charles Wappler
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Endqscopic instrument and elec
US 1963636 A
Abstract  available in
Images(2)
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

June 19, 1934. F. c. WAPPLER 1,963,636

ENDOSCOPI C INSTRUMENT AND ELECTRODE ELEMENT THEREFOR Filed June 17, 1932 2 Shets-Sheet 1 6-4 .9. INVENTOR Eel/@1146 BY Win-Toma June 19, 1934. F. c. WAPPLER 1,963,636

ENDOSCOPIC INSTRUMENT AND ELECTRODE ELEMENT THEREFOR Filed June 17, 1932 2 Sheets-Sheet 2 INVENTOR fiedeubM/l fh BY E . ATOR Y Patented June 19, 1934 N T STATES Ennosoorro INSTRUMENT ELEC-V TRQDE ELEMENT THEREFOR Frederick Charles Wapp e New York, N.;Yf pplicati n June 17; 1932, Ser a No, 6 1,755

5 Claims. (01. 174 s9) My re ent inv n ion r l t en y to u gical instruments, and has particular reference,

to an impr ved endosc pi inst um nt a d o a new type of electrode eleme to be us d there- 5 with. 7

It isa general object of my invention to provide an improved instrument of the type where-. in a longitudinally movable electrode rod is provided with. an operative loop at its forward end, 1c the loop being arranged substantially transversely to the axis of the instrum nt n being adapted to project laterally out of a fenestra in an outer endoscopic tube.

It is a more particular object to provide an it improved device wherein a transversely arranged electrode loop may be caused more efficiently to fulfill a contemplated cutting or resecting function in connection with internal opera- For example; where an instrument of the 29 present type is used to resect a longitudinal chan nel or the like through an internal protrusion, the

tions.

operative electrode loop of the present construction resects the desired channel in a more expe ditious and reliable manner when theelectrode 2?! rod is moved longitudinally.

A further object of my invention lies in providing a device of greatly simplified character,.neces-' sitating the employment of a minimum number of parts and mechanisms, and constructed andas- 3Q; sembledi n a manner which results in economy of manufacture, compactness, ruggedness, and extreme reliability.

A particular feature-of my invention lies in the provision of an arrangement whereby the oper- 351ative loop is constructed to complete its cutting or resecting-operation in shearing relationship with. an end edge of the endoscopic fenestra through which it projects. The shearing action thus provided for is of great advantage in efii- 4o; ciently and. reliably finishing off the cutting operation which is being performed.

A further and more particular feature of my invention lies in providing a yieldable means which constantly urges the operative loop laterally out 4,5v of the fenestra, in conjunction with a means for guiding or camming the operative loop inwardly during the completion of its cutting operation, whereby the loop is brought into shearing relationship with an edge of the fenestra. y In accordance with my present invention, the yieldable means which urges the operative loop laterallyout of the fenestra is associated with the operative loop: itself, to the rear of the latter, and

is adapted to bear against the rear wall of the endoscopic tube. The term rear wall as used,

-trolling the-movements of the electrode rodixy herein and'in the appended claims is intended to designate the wall of the endoscopic tube oppo site the fenestra. v e a I Another feature of my invention lies in providing an endoscopic tube of a novel character par-. 6i}

ticularly designed for use in conjunction with an 7 electrode rod and operative loop of the present character. The tube has a lateral fenestra whereof at least one edge is of insulating material; and in a preferred embodiment, it is the rear edge of the fenestra which is insulated so that. the shearing operation takes place at theconclusion of a rearward sweep or movement of the electrode rod. Preferably, the entire endoscopic tube is of insulating material, so that the shear ing engagement of the uninsulated operative loop with the edge of the fenestra may be effected,- withoutany interference with the desired or necessary electrical connections.

A further feature of my invention lies in the provision of an arrangement whereby the resecting operation may be constantly retainedunderv efficient illuminated vision. More particularly, I provide an instrument wherein an illuminatingtelescope may be efliciently arranged along the rearwall of the endiscopic tube, with its objec-- tive positioned to command an obliquely forward field of illuminated vision out of the fenestra; and the yieldable means for urging the operative loop laterally out of the fenestra is provided in ,35. L

a novel and improved manner which does not interfere withunimpaired continuous visibility of the entire field of vision and of the operative loop I itself. v v.

The embodiment herein illustrated by way of example is characterized by an electrode rod which consists of an elongated body and a pairv 0f divergent :springy arms arching forwardly: from the, elongated body and carrying at their forward ends an operative loop of substantially U-shaped configuration. These; arms are adapt- 7 ed tohear against the rear wall of the endoscopic tube on opposite sides of. the telescope, thereby fulfillingtheir contemplated functions without impairing. the visibility or illumination. 7 I achieve the foregoing objects, and such other objects as may hereinafter appear or be pointed V out, in the manner illustrativelyexemplified in the accompanying drawings, wherein- V Figure 1 is a perspective View of one type of endoscopic instrument embodying the features of my present invention Figure2 is an enlarged fragmentary eleva tional view of a portion of the mechanism con- Figure 3 is a fragmentary cross-sectional View taken substantially along the line 3-3 of Figure 2;

Figure 4 is an enlarged elevational crosssection of the forward end of the instrument;

Figure 5 is a view similar to Figure 4, showing the telescope and the electrode element independently of the endoscopic tube;

Figure 6 is a View taken from the bottom of Figure 5; and

Figures '7, 8, and 9 are cross-sectional views taken along the corresponding lines indicated in Figure 4, and illustrating the manner in which the operative loop is guided into shearing relationship with the fenestra.

The endoscopic tube 10 is provided at its forward end with a lateral fenestra 11. I have shown it combined with the more or less conventional type of associated parts. Thus, at its rear end it is provided with the collar 12 and with the sleeve 13, the latter being provided with an attachment means 14 of any desired character for facilitating the engagement of the inner bundle of parts. I have also shown the sleeve 13 provided with the outlet 15 which may be used for irrigation purposes.

The operative parts of the device are removably insertable into the tube 10 in the conventional manner, and those portions of the device which have a more or less material bearing upon the present invention are illustrated most clearly in Figures 2 and 3. A plug 16 is adapted to be snugly inserted into the sleeve 13, and the bifurcated projection 17 is adapted to be engaged by the device 14 to hold the parts together. Projecting forwardly from the plug 16 are the tubes 18 and 19 which need not be completely circular but may be substantially U-shaped in cross-section, as indicated most clearly in Figure 3. The tube 18 is adapted snugly and removably to accommodate the telescope 20; and the tube 19 serves as a guide for the electrode rod or elongated body 21 which is adapted to slide axially therein.

It will be understood that the bores of the tubes 18 and 19 have continuations extending through the plug 16, and in Figure 2 I have shown the manner in which the telescopic tube 20 and the rod 21 project rearwardly from this portion of the device.

Rigidly associated with the plug 16 and extending rearwardly is the rack 22; and at its rear end this rack is secured to the block 23 having an opening adapted to permit the telescopic tube 20 to pass rearwardly therethrough. The telescope terminates at its rear end in the conventional eye-piece 24, and with suitable terminal rings and insulating rings which form no material part of the present invention and which are adapted to receive a terminal post such as that indicated at 25 in Figure 1 for the purpose of permitting suitable electrical connections to be made to the illuminating lamp at the forward end of the telescope. Preferably, a thumbscrew '26 engages with an upper slit portion of the block 23 so as to clamp the telescopic tube 20 in position and prevent axial movement thereof after it is once adjusted.

The rod 21 terminates at its rear end in the assembly 2'7 which carries the electric terminal or binding post 28, it being understood that a suitable connection may be made to this binding post in conventional manner to establish an electrical connection between a suitable source of high-frequency resecting current and the operative electrode loop at the forward end of the rod 21. The assembly 2'7 is provided with a bore which permits it to slide freely on the telescope tube 20 between the limits imposed by the block 23 and the rear portion of the plug 16, the telescope tube 20 thus serving as a guide rail.

The assembly 27 is also provided with a depending portion 29 in which a pinion 30 is mounted for meshing engagement with the rack 22. A radial lever or handle 31 projecting from a control wheel 32 permits the operator to rotate the pinion 30, since the wheel 32 is mounted on the same shaft as the pinion 30, and in this way the entire assembly 27, carrying the electrode rod 21, may be shifted axially under the guidance and control of the operator. During this shifting, the lever 31 travels only through approximately 180, the forward position being indicated in Figure 1, and the rearmost position being approximately indicated in Figure 2.

The telescope which I employ is preferably of the character illustrated and described in United States Letters Patent No, 1,680,491, having an electric lamp 33 at its forward tip and provided with an objective lens 34 slightly behind the lamp 33 and commanding an obliquely forward field of vision. The telescope is arranged closely adjacent to the rear wall of the tube 10, as illustrated most clearly in Figure 4, it being understood that the term rear wall relates to that 10.5 portion of the endoscopic tube which is opposite the fenestra 11, as hereinbefore explained. Thus, the objective lens 34 is adapted to command an illuminated field of vision extending forwardly and laterally out of the fenestra 11.

The electrode rod consists of the elongated body 21; and at its forward end it is provided with a pair of spaced spring arms 35 and 36 whose rear portions diverge forwardly from the forward end of the body 21. These arms arch forwardly 5 away from the body 21, as illustrated in Figures 4 and 5, so that under normal conditions, with the endoscopic tube 10 removed, the forward ends of the arms 35 and 36 lie on the opposite side of the telescope axis as compared with the side 2 along which the rod 21 is arranged. This relationship is shown most clearly in Figure 5.

At the forward ends of the arms 35 and 36, the operative U-shaped loop 37 is mounted, and this electrode loop is arranged substantially transverse with respect to the axis of the instrument as a whole. In the embodiment illustrated, the loop 37 lies in a plane which forms an angle of approximately 60 with the axis of the rod 21, as indicated most clearly in Figures 4 and 5. It 130 will be understood, however, that this angle may be modified to suit differing requirements, and that the term transverse, as the same is used 7 herein and in the appended claims with respect to the operative loop, refers to any disposition of the loop in a substantially transverse plane.

When the electrode and the telescope, and the associated parts, are inserted into the endoscopic tube 10, the parts assume the relationship shown in Figure 4, wherein it will be noted that the arms 35 and 36 bear against the rear wall of the tube 10. The loop 37 is thus constantly urged lat erally out of the fenestra 11. While the electrode rod is advanced, and during'most of the longitudinal movement of the loop 37, the midportion of the loop, constituting its outermost. point, travels along a line or plane 38 which is slightly outside of the imaginary continuation of the inner surface of the fenestrated wall of the tube 10.

means;

In the 'absence of my present construction and arrangement, the rearward i longitudinal moves ment of the electrode '37, for example, .during the resecting of sis-longitudinal channel in aprotrue sion or'the like, would be ultimately 'impeded; bythe forward/edge 39.01? the vfenestrated wall-of the tube 10, this forward edge being-ther'ear edge:

of the fenestra 11;" Further rearwardzmove'ment of the loop' 3'7- would thus beim'peded and no shearing action of anycharacter would bexaccom+ plished by'the loop; 0 i 1 p In accordance with my present. invention, the loop is so shaped'as to be capable. oflefiecting av Shearing action in connection with the rear edge 39 of the fenestra l1; and the arms 35- and-SG, in"

in Figure 9, the loop 3'7 has been brought into direct shearing relationship with respect to the edge 39. This efliciently and reliably completes and finishes off any out which the operative loop has been engaged in resecting, and leaves no re- Isected matter hanging or attached to the wall from which it is supposed to be removed.

The manner in which this desirable effect is achieved is indicated most clearly in Figures 4, '7, 8, and 9. While the rod 21 is in an advanced position, the loop 37 is permitted to assume the laterally projecting positions of Figures 4 and 7, being positively urged into this position by means of the arms 35 and 36, these arms bearing against the rear wall of the tube 10 on opposite sides of the telescopic tube 20, Toward the end of the retracting movement of the rod 21, the sides of the U-shaped loop 37 engage slidably with the side walls of the fenestra 11, whereby a camming action takes place. This is due to the fact that the sides of the fenestra 11, at the rear thereof, converge rearwardly. This camming action is indicated in Figures '7, 8, and 9, and results from the fact that the loop automatically seeks to accommodate itself in the wider portion of the tube 10. V In other words, as the rod 21 is retracted, the sides of the loop must either yield or the loop must move radially into the tube 10 against the yielding action of the arched springy arms 35 and 36.

As a result, the loop 37 does not terminate its rearward movement in abutting encounter with the edge 39, but, on the contrary, is guided or cammed inwardly in a gradual manner so that the rearward movement terminates in a shearing action between the loop 37 and the edge 39.

Although I have illustrated this desirable effect as being accomplished during a retraction of the rod 21, nevertheless it will be understood that under certain circumstances the' parts may be so arranged that this action will take place under a forward movement of the rod 21. In such an event, the lateral fenestra 11 would not flare forwardly into the oblique relationship illustrated, but would terminate in a forward edge corresponding to the rear edge 39.

Furthermore, it will be understood that although I prefer to construct the entire tube 10 of insulating material, only the edge portion, and especially the end edge portion, of the fenestra need be of insulating material.

' limiting sense.

- one of the advantages of my'presentiarrangew ment: has in the constant. illuminated visibility which'fis permitted. Although the arms 35 and flfliextend across'the tube 10, from the fenestrated wall toward-and'into'engagement. with the op- 8 positewor rear wall, the visibility .throughthe telescope isnve'rimpaired, the field of vision extending obliquely forwardly through thes'pace between the arms 35and 36 and out of: the fenestra" 11. During-the rearward movements of the arms 35 and 36, they do not interfere in, the. least with thetelescope, and bear against the rearwall of the tube on opposite sides of the telescope? The device is thus devoid ofall but a minimum number of parts; the individual parts are relativelysimple in structural nature; and yet a highly efficient and reliable cut, terminating in a definite shearing action, is capable of accomplishment with great facility.

It will be understood that, from certain aspects, my invention is not restricted to the type of control movement illustrated in Figures 2 and 3, and that the rack and pinion arrangement, while preferable, has not vital bearing upon the advantages achieved by my invention at the operative end of the device.

In general, it will be obvious that changes in the details herein described and illustrated for the purpose of explaining the nature of my invention may be made by those skilled in the art without departing from the spirit and scope of the invention as expressed in the appended claims. It is therefore intended that these details be interpreted as illustrative, and not in a Having thus described my invention, and illustrated its use, what I claim as new and desire to secure by Letters Patent is- 1. An instrument of the character described, comprising an endoscopic tube having a lateral fenestra, a longitudinally movable electrode rod in said tube and provided. at its forward end with a transverse cutting loop, yieldable means carried by said rod behind said loop and adapted to bear against the rear tube wall for urging the midportion of said loop laterally out of said fenestra, the loop being so shaped that the tube wall adjacent to the rear portion of the fenestra will cam said loop inwardly against the action of said yieldable means when the electrode rod is retracted, so as to bring the midportion of the loop into shearing relationship with the rear edge of said fenestra.

2. An instrument of the character described,

comprising an endoscopic tube having a lateral v and adapted to bear against the rear tube wall for urging the midportion of said loop laterally out of said fenestra, the loop being so shaped that the tube wall adjacent to the rear portion of the fenestra will cam said loop inwardly against the action of said arms when the electrode rod is retracted, so as to bring the midportion of the loop into shearing relationship with the rear edge of said fenestra.

3. An instrument of the character described, comprising an endoscopic tube having a lateral fenestra, a longitudinally movable electrode rod in said tube and provided at its forward end with a transverse cutting loop, a telescope in said tube, a pair of spaced yieldable arms arching rearwardly from said loop and adapted to bear against h the rear tube wall on opposite sides of said telescopefor urging the midportion of said loop laterally out of said fenestra, the loop being so shaped that the tube wall adjacent to the rear portion of the 'fenestra will cam said loop inwardly against the action of said arms when the electrode rod is retracted, so as to bring the midportion of the loop into shearing relationship with the rear edge of said'fenestra.

4. An instrument .of the character described, comprising an endoscopic tube having a lateral fenestra, a longitudinally movable electrode rod in said tube and provided at its forward end with a transverse cutting loop, yieldable spring arms carried by said loop and adapted to bear against the rear tube wall for urging the midportion of said loop laterally out of said fenestra, the sides of the loop being shaped to engage the side walls of the fenestra when the electrode rod is retracted, so as to cam the loop inwardly against the action of said arms and bring the midportion of the loop into shearing relationship with the rear edge of the fenestra.

5. An electrode element of the character described, comprising an elongated body, a pair of divergent springy arms arching forwardly from the forward end of said body, and an uninsulated, U-shaped, cutting loop carried between the forward ends of said arms, said loop being arranged in a plane forming an angle of approximately 60 with the axis of said body.

FREDERICK CHARLES WAPPLER.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2442966 *Sep 7, 1946Jun 8, 1948American Cystoscope Makers IncElectrosurgical resecting instrument
US2545865 *May 11, 1948Mar 20, 1951American Cystoscope Makers IncElectrosurgical instrument
US2888017 *Sep 14, 1956May 26, 1959American Cystoscope Makers IncElectrosurgical instrument
US4467802 *Jan 27, 1982Aug 28, 1984Harald MaslankaSurgical gripping instrument
US4726370 *Feb 7, 1986Feb 23, 1988Olympus Optical Co., Ltd.Resectoscope device
US4919129 *Nov 30, 1987Apr 24, 1990Celebration Medical Products, Inc.Extendable electrocautery surgery apparatus and method
US5569244 *Apr 20, 1995Oct 29, 1996Symbiosis CorporationLoop electrodes for electrocautery probes for use with a resectoscope
US5902300 *Feb 5, 1997May 11, 1999Symbiosis CorporationElectrodes having upper and lower operating surfaces for electrocautery probes for use with a resectoscope
US5908419 *Feb 5, 1997Jun 1, 1999Symbiosis CorporationResectoscope roller electrode having high heat zone insert
US5938661 *Feb 5, 1997Aug 17, 1999Symbosis CorporationSingle arm electrocautery probes for use with a resectoscope
US5957923 *Oct 7, 1996Sep 28, 1999Symbiosis CorporationLoop electrodes for electrocautery probes for use with a resectoscope
US6178354Dec 2, 1998Jan 23, 2001C. R. Bard, Inc.Internal mechanism for displacing a slidable electrode
US6394949Oct 5, 1999May 28, 2002Scimed Life Systems, Inc.Large area thermal ablation
US6451016Jul 12, 1999Sep 17, 2002C. R. Bard, Inc.Displaceable ablation electrode
US6494881Sep 30, 1997Dec 17, 2002Scimed Life Systems, Inc.Apparatus and method for electrode-surgical tissue removal having a selectively insulated electrode
US6932812Apr 29, 2002Aug 23, 2005Scimed Life Systems, Inc.Large area thermal ablation
US6997926Feb 4, 2002Feb 14, 2006Boston Scientific Scimed, Inc.Resistance heated tissue morcellation
US7749159Jun 21, 2005Jul 6, 2010Boston Scientific Scimed, Inc.Large area thermal ablation
US8298243Jul 30, 2007Oct 30, 2012Tyco Healthcare Group LpCombination wire electrode and tube electrode polypectomy device
US8328803Jan 30, 2009Dec 11, 2012Covidien LpPolyp removal device and method of use
DE102010027080A1Jul 13, 2010Jan 19, 2012Olympus Winter & Ibe GmbhOperating device for longitudinal displacement of working instrument for surgical operation in e.g. bladder, has gear boxes varying translation between movement of grasp piece and carriage