|Publication number||US2200120 A|
|Publication date||May 7, 1940|
|Filing date||Apr 30, 1938|
|Priority date||Apr 30, 1938|
|Publication number||US 2200120 A, US 2200120A, US-A-2200120, US2200120 A, US2200120A|
|Inventors||Walter W Nauth|
|Original Assignee||Walter W Nauth|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (108), Classifications (8)|
|External Links: USPTO, USPTO Assignment, Espacenet|
' i y 7; 1940. w. w. NAUTH 2.200.120
FRACTURE NAIL GUIDE Filed April 30, 1938 2 Sheets-Sheet i [NVENToR Vl AL TEE W/VAUTH 301d, l 14M ATTORNEYS M y 7, 1940. w. w. NAUTH 2.200.120
FRAC'I'UKE NAIL GUIDE Filed April 30. 1938 2 Sheets-Sheet 2 [NVENTOR 5 W41. TE/Z W lV/IUTH @(PM, /MM
Patented May 7, 1940 UNITED STATES PATENT OFFICE 14 Claims.
The present invention relates to an improved method and apparatus for fixation of fractures through the neck of the femur.
Heretofore there have been devised various methods of fixation of fractures of the neck of the femur in which the fixation is accomplished by wires, bolts, or nails, inserted through the neck of the femur so as to locate and affix the fractured portions. One of the commonest procedures at the present time comprises the steps of first aligning the fractured portions of the neck of the femur by moderate traction with abduction to the well leg, followed by a reduction of the fracture by the Ledbetter manipulation as described by Key and Conwell in their book entitled Fractures, Dislocations and sprains, page 826, which was published in 1934 by C. B. Mosby Company, St. Louis, Missouri. The fractured portions are then pinned together by Kirchner wires, the plane and angle of each wire being determined largely by guess, and checked after it is placed by anterior and lateral X-ray pictures.
In a modification of this procedure the Kirch- 25 her wires are placed one after the other, the plane and angle of each wire being determined by hand, and checked after being placed by anterior and lateral X-ray pictures, until a Kirchner wire is finally positioned along the axis of 30 the neck of the femur. A hollow drill is then lowered over the protruding end of the Kirchner wire and an enlarged hole drilled for the inser- "on of a Morrison bolt or Smith-Peterson nail is driven through the bone. The bolt or nail 35 serves as the load-carrying fixation member during the union of the bones.
While these procedures have yielded remarkable results, and a relatively high recovery, as compared with earlier procedures in which no 40 fixation and retaining devices were used, they are objectionable for several reasons:
First. The plane and angle of the first Kirchnor test wire in either procedure is determined by the operator, and this wire is therefore en- 45 tirely explanatory. In some instances it accordlngly happened that this exploratorywire was misdirected so that it left the neck of the femur, or was driven through the joint.
Second. According to either of these procedures lateral X-ray pictures are taken after the first and each succeeding Kirchner wire is set, so as to check the position of the wire as an aid to setting the next succeeding wire. The develop ment of each x-ray picture consumes from five to ten minutes, during which the surgeon can do nothing, and operating time is thus wasted and the patient exhausted. A total of from two to four Kirchner wires is sometimes necessary in either procedure, and the total time consumed for the operation, therefore, frequently amounts I to several hours. This long operating time and consequent exhaustion contributes to fatality, especially as patients are usually aged persons.
Third. Where the fixation agent is a Morrison bolt or Smith-Peterson nail, the placement of four or five exploratory Kirchner wires as a means of locating the position of the major bore is an undesirable weakening of the neck of the femur, which is already weakened by the fracture.
Fourth. The determination of the plane and angle of the initial and subsequent Kirchner test wires is done manually and is therefore, within the skill of the operator. The number of operations of this character is relatively small and there are but relatively few operators in the large centers of population who have had sufiicient experience to perform this operation without placing an excessive number of test wires and. consuming an excessive amount of time in the operation.
It is an object of the present invention to provide a method and an apparatus for overcoming these deficiencies of earlier procedures. Specifically, it is an object of the present invention to provide a method and apparatus for guiding the placement of the first Kirchner test wire, with reference to certain landmarks of the femur, whereby the possibility of misdirecting the initial wire is obviated.
It is also an object to provide a method and 5 apparatus for locating the plane and angles of a subsequent Kirchner wire or a large caliber drill with respect to the femur landmarks and with respect to the initially guided Kirchner test wire whereby the use of subsequent exploratory wires is obviated, or reduced to at a maximum one wire and whereby the total operating time may be sharply reduced from several hours to less than one hour. 1
It is a further object of the invention to provide a method of femur surgery and an apparatus by which the use of exploratory test wires may be obviated entirely if desired and by which the major boring device may be guided by an instrument definitely located with reference to the femur,
It is also an object to provide an adjustable guide for a boring instrument, which may be located temporarily in fixed position relative to the femur and then adjusted to a position such 66 2 aaoaiao that a boring instrument guided thereby will be in alignment with the axis of the neck of the femur.
It is also an object to provide a guide apparatus by which surgeons of relatively little experience may accurately place fixation devices in the neck of the femur, in a minimum time. and by which the angular and lateral adjustments of the drill guide may be made accurately in precise amounts.
It is a further object to provide an instrument and a protractor device by which the adjustment of the instrument may be accurately gauged.
Other objects of the invention are those suggested and implied by the specification, claims and drawings and those inherent in the method described and claimed and in the apparatus illustrated, in which Figure 1 shows a side elevation view of an apparatus of the present invention as it is applied to a dry specimen femur.
Figure 2 is a side elevational view-partly in section, showing the various elements separated from each other.
Figure 3 is an elevation view of the front of the instrument.
Figure 4 is an elevational view of a femur, with the instrument in place and with a protractor guide mounted for adjustment of the instrument.
Figure 5 is a top view of a femur with the instrument in place and with the protractor mounted for adjustment of. the instrument.
Figure 6 is an elevational view partly in section of the femur and instrument, showing a Morrison bolt fixation device partly placed, andthe instrument ready to be removeda Figure 7 is a sectional view of the femur and instrument along the lines 1-7 of Figure 4.
The apparatus of the present invention is an instrument which is temporarily attached in fixed position relative to the femur during the fixation procedure. In the figures the femur shaft is designated by the letter F, the head of the femur by the letter H, and the neck of the femur by the letter N. A fracture of the neck. of thefemur is illustrated by the irregular line extending across the neck N. The apparatus is shown assembled on a femur in Figures 1, 4, 5 and 6 of the drawings and comprises an angularly shaped frame generally designated III, which is preferably made of a single piece of corrosionresistant steel. The frame III has a central portion H which is generally parallel to the axis of the femur F when the instrument is in. place thereon, and another integral slide section l2 The leg portion l3 of the frame serves with spacer block 2| which is attached to portion H, to position the slide section l2 in a definite relation to the femur.
The opposite end of the frame I!) is provided with an outwardly extending section l6 and a' handle portion IT by which the instrument may be grasped and held in place in the preliminary operation of aflixing it to the femur, as will be i described.
The central portion I l of frame I is provided with a fixed drill guide and .bushing 20 which protrudes from the frame soas to form a pivot forlocating block 2|. The locating block 2! is apertured at 22 to receive the bushing 20 (see Figure 2) and is provided with a threaded opening 23 which receives a fastening stud 25. It will be noted that the hole 250. in frame portion H is slightly larger than stud 25. When block 2i is in place and the stud loosened, the block 25 in hole 25a. This slight,movement provides.
the necessary displacement of the edge i of leg l3 with respect to the edges 29--29 of block 2!,
so that the instrument may be used with equal I facility on right and left femurs.
The slide section 12 of the frame has a central transversely elongated aperture 26, as shown in Figure 3, below which there is mounted a fastening screw 21 which receives the fastening and lock nut 28. Above aperture 26 on the slide section there is located a tube 30 which passes through the frame, and 'which is permanently afllxed to the slide section and to the right angular portion l3. The protruding end of the tube 30 is threaded at 3| so as to receive the fastening nut 32. v
overlying the slide section there is positioned a transversely movable assembly generally designated 34, which is composed of an outer plate 35 and an inner plate 36. The outer plate is thickened at its upper end, as shown in Figures 1, 2, 4 and 6 so as to space the inner plate 36 from it. The two plates 35 and 36. are fastened together by screws or rivets, not shown. The outer plate 35 also has an overhanging lip 38 which serves to prevent the plate from turning with reference to the leg portion l3 of frame Ill.
Plates 35 and 38 of assembly 34 are centrally apertured to receive the spherical portion 40 of. the drill guide 4|, as shown especially in Figures 2 and 6. When the assembly 34 is separated from the frame, as shown in Figure 2, the drill guide 4| is freely movable in its ball and socket support and may thus be oriented at an angle either horizontally or vertically with respect to the slide section l2 of the frame. 'When the assembly 34 is in place on the frame I 0, as shown -in Figures 1 and 4 and nut 32 is tightened, the
drill guide 4| may still be moved although .the. movement is somewhat restricted. When nut 28 Referring to Figure 3 it will be noted that the inner and outer plates of assembly 34 have elongated transverse apertures 42 and 43 which permit the assembly to be moved from the left-hand position 44, shown in heavy lines in Figure 3, to the right-hand position shown in the dotted lines in the same figure. The purpose of this movement from one position to the other is to permit the plane of the drill guide to be shifted when this is necessary, as hereinafter explained. The tightening of nut 32 serves to clamp assembly 34 against movement.
By referring to Figure 7 it will b noted that the locating block 2! has an inner curved surface 24 and locating edges 29-29, one of which edges contacts thegluteal ridge 33 of femur F when the instrument is in placethereon. When the inedge 29, as shown in Figure 7, contacts the gluteal ridge 33; when on a left femur, the u er edge 29 serves this locating function.
In the separated'view, Figure 2, the instrument is shown as provided with a removable drill coilet 5 strument is in place .on a right femur, the lower I. which fits the bore of drill guide 4| and which may be used for centering and guiding a small drill wire v5| of the same diameter as wire 31 which is used when drillingthrough tube 30. It is understood that this collet may be used at one stage of the operation, and subsequently removed for the insertion of the drill 52 shown in Figure 1. The small drills 31 and ii are known in the art as "Kirchner wires and are used for explora tory and for fastening purposes.
For use the instrument is .assembled as shown in Figure 1, with the assembly 34 in a central -position with reference to slide section II, and the block 2| pivoted to the right or left position so as to accommodate the instrument to the right or left femurs, whichever may be under treatment. It is noted that Figure 1 shows a Kirchner wire 31 and also a large caliber drill 52.111 place on the instrument. These are not on the instrument when it is originally positioned on the femur but are inserted at certain stages of the operative procedure which will be described. g
The edge l5 of the angularly shaped portion l3, as previously stated, is shaped to conform with the lower border of the trochantric ridge of the femur and the locating block 2| which has edges 2929, is shaped and positioned on the instrument with reference to the edge l5 so that an edge 29 will lie along the gluteal ridge 33 of the femur when the instrument is in place, the necessary shifting of block 2| being made as explained above, to accommodate the instrument to right and left femurs.
The instrument is also supplied with a detachable protractor gauge, which is illustrated in Figures 4 and 5. The gauge consists of a staff 60 of a 'size such that it has a snug slip fit in drill guide 4|. The drill guide is preferably notched at 6| to receive a pin 62 which is mounted on staff 80 to steady the gauge and prevent it from turning with reference to the guide. Mounted on the staff 60 are a pair of protractor segments 63 and 64, which are shaped to clear the end 65 of Kirchner wire 31. Each of the segments is callbrated in degrees or other units as desired. Kirchner wire 3'! is clearly discernable in an X- ray picture and is ,a datum line for the measurement of corrections in the photograph. The end 65 of the wire 3'! acts as an index pointer in conjunction with the protractor scales 63 and 64 for applying such corrections in using the instrument. The scale 63 is preferably calibrated with line 66 as the zero line, for when the end 65 is opposite the line 66 the 'axis of drill guide 4| is parallel with the axis of wire 31. The graduations of the protractor segments 63 and 64 which are shown in Figures 4 and 5, are suggestive of any scale of angularity which may obviously be used.
The protractor scale 63 is positioned radially at the zero of the scale of protractor 64 and Figure 5 shows the drill guide II and protractor displaced to supply a necessary angular correction, as hereinafter explained.
I have discovered by measuring a large number of specimen femurs that the angle A of Figure 1 between the axis of the femur and the axis of the neck of the femur, is approximately 125 degrees and that the lower border ofthe trochantric ridge l4 and the gluteal ridge 33 are anatomical landmarks on the femur with reference to which the instrument may be readily located in use. The muscles over the femur are readily detached up to the lower border of the trochantric ridge I4 and laterally as far as the gluteal ridge. Dissection of the muscular attachment is resisted at the lower border of the trochantric ridge and posteriorly at the gluteal ridge by the dense flbromuscular attachment of the muscles in these places, respectively.
In the present invention I propose to make use of these anatomical landmarks as locating points for affixing the instrument to the femur during theoperative procedure now to be described.
A preferred methodof using the present apparatus in an operative procedure comprises the following steps:
1. An anesthetic is administered to the patient. This may be a spinal anesthetic or any other anesthetic, according to the choice of the operator.
2. The patient is then placed on a fracture table and both feet and ankles are padded and traction loops are applied.
3. The patient is then placed upon the saddle of the fracture table against the perineal post thereof which serves to restrain movement of the patient, and traction with abduction of the well leg is applied.
4. The fracture is then reduced, that is to say, the fractured portion of the bone is aligned by use of the Ledbetter manipulation, and then the Letbetter heel and palm test is applied to determine whether reduction is complete. This procedure is described in the book by Key and Conwell entitled Fracture, Dislocations and Sprains, previously mentioned herein.
5. Fixation of the fractured portions of the neck of the femur with moderate traction and proper rotation and abduction is then applied and X-ray photographs from the anterior, posterior and lateral positions are taken and developed. Additional manipulation may then be applied, if necessary.
6. The skin is then prepared by proper antiseptic procedures and a four inch incision is made extending downwardly along the lateral surface of the thigh from the middle ofthe great trochanter and the femur is freed of its muscular attachment by the use of a blunt dissector or periosteal elevator. This is comparatively easy in the antero-lateral surface but as dissection is carried upward and posteriorly, two points of firm resistance are met with, which as previously described, are defined by the dense fibro-muscu lar attachment on the lower border of the trochanter andthe gluteal ridges respectively. The upper curved end of the angularly positioned plate I3 is then pushed upward against the lower border of the trochanter and the edge 29 of spacing block 2| is rotated sidewise against the gluteal ridge.
The instrument is held in position against the trochantric and gluteal ridges by means of handle l1, and a hole is drilled through bushing into the sound portion of the femur. A selftapping screw 33 is then inserted through the bushing and the locating block and instrument proper are drawn into a temporarily fixed'position on the femur, as shown in Figures 1 and 4. 7. A properly engaged Kirchner drill wire 3T is then inserted through tube and is drilled into the neck N of the femur to a depth determined by the surgeon as locating the point of the drill in the head H of the femur.
' 8. Lateral, anterior and posterior X-ray photographs are then taken and disclose the plane and angle of the Kirchner wire within the neck of the femur (Figures 4 and 5) and enable the operator to gauge the correction of direction necessary for drill guide ll. As soon as the X- ray pictures are developed the exact angularity correction may be measured with a protractor, on the X-ray picture.
Little difficulty is experienced in finding and locating the edge of member I3 against the lower border of the trochanter but more care is usually required in positioning the locating edge 29 of block 2| against the gluteal ridge. There is seldom any vertical misalignment when using the present instrument, and as a consequence, the initially placed Kirchner wire 31 is invariably at the proper angle of substantially 125 degrees with respect to the shaft of the femur, as shown in Figure 4.
Misalignment of the block 2| with reference to the gluteal ridge has the effect, as shown in Figure 5. of slightly misdirecting the angleof the initial Kirchner wire test drill 31 but no difficulty is experienced due to any reasonable misalignment here, since there is considerable leeway in the head H and neck N of the femur. If care is taken, the possibility of failure of alignment with reference to the gluteal ridge is relatively small.
However, for the purposes of this description, 8. misalignment is assumed, and the angle between the Kirchner wire and the axis of the femur will appear as angle B in the X-ray picture (Figure 5).
It is also noted that in some cases a shifting of the plane of drill guide M may be necessary without a change in angularity of the drill guide, or in addition to the change in angularity of the drill guide.
and shifting the whole assembly 34 laterally. Thus, if the X-ray photograph should disclose a configuration of the neck and head of the femur, such as that shown by the dotted line C in Figure 5, shift of assembly 34 to the dotted line position would be necessary in order to bring the axis of drill guide 4! in line with the proper axis, which is illustrated by the line C.
Due to the configuration of the instrument and the method of locating it with reference to the trochantric and gluteal ridges, the first Kirchner wire 31 which is drilled through guide will go through the upper portion of the neck of the femur, i. e., above the axis of the femur as shown in Figure 4.
9. The corrections which are ascertained to be necessary by a study of the X-ray photographs, may be applied to the drill guide by eye or by the use of the protractor gauge shown in Figures 4 and 5. In the assumed case, a correction of angle B in Figure 5 is required to bring the drill guide into proper alignment, which is represented by line L, and the protractor is accordingly moved until the end 65 of wire 31 is opposite scale line 61 which signifies this angularity on protractor 64. In the assumed case no correction of angularit-y is necessary in the view shown in Figure 4, but if such should be required it would be applied by moving the protractor and drill guide 4| until the appropriate scale mark on scale 63 is in line with end 65 of wire 37. It was also assumed that no change in plane of the drill guide is necessary and hence assembly 341 is not shifted. However, if such correction should be necessary it is applied. After all of the corrections are made, the drill guide is locked in fixed position by tightening nuts 28 and 32.
10. The drill collet is then inserted in drill guide 40 and a second Kirchner wire 5! is then When such adjustment is necessary. it is accomplished by loosening nuts 28 and 32,
inserted through the collet and is drilled into the neck of the femur. Lateral, anterior and posterior X-rays are then taken and developed and serve as a. means of checking the position of the second wire.
11. If the second wire is in a proper position the drill collet i0 is removed and a large drill 52 of slightly less diameter than the drill guide ll is inserted and drilled into the neck of the femur in an amount determined by the surgeon as sufficient to locate the end of the drill in the ball portion H of the femur. If it should be found that further corrections of angularity are necessary, these may be applied as described in'paragraph 9 above, before the large size drill 52 is used.
12. Drill 52 is then removedand a. Morrison bolt, or any other suitable type of fixation instrument is then inserted through the drill guide and into the hole'produced by the large drill. Figure 6 shows a Morrison bolt 68 in place after having been inserted through the instrument. Screw 33 is then removed and the entire instru-, ment detached.
13. The Morrison bolt which is the preferred form of attachment device, is then driven into the bone throughout the entire length of the hole and an impactor (not illustrated) is then placed over the bolt and struck several times. This procedure permits increased protrusion of the bolt. The expanding ends 69 of the bolt are then forced into thehead of the femur by an expanding plunger and a fixation nut is screwed down so that the bolt maintains the fractured ends of the femur in impacted relation. The expending plunger and fixation nut have not been illustrated since these are well known in the art as components of the Morrison bolt.
14. The original Kirchner guide wire 81 may then be removed, but it is preferably left in situ as it aids fixation of the bone. If it is permitted to stay it is clipped off evenly with the end'of the Morrison bolt. The muscles are then brought together over the bolt and are closed by deep interrupted dermal sutures.
The wire and the bolt are normally permitted to remain in place from about six months to one year. The patient is usually required to remain prone for about three weeks, and it is preferable not to place any appreciable weight upon the- When these precaujoint for about six months. tions are maintained complete recovery is obtained in about ninety per cent of the treated cases.
Many variations may be made in the foregoing preferred method without departing from the spirit of the invention; Thus, the placing of the initial test wire may be omitted and the alignment made by study of an X-ray of the instru- I ment on the femur, the necessary corrections being made from this photograph, using an edge or line on the instrument as datum. However, I prefer to place a Kirchner wire through tube 30 rince this serves to hold the fractured portions of the femur in alignment during the drilling of the larger opening and placing of the Morrison bolt or other fixation instrument.
The procedure-may also be varied by omitting the placing of a second Kirchner wire through collet v50, since this is in most cases merely a proof drill. After some experience with the instrument the placing of this wire is often found to be unnecessary.
Concerning variations in the apparatus: It is obviously possible to shape the frame I0 differaaoaiao entiy. Thus as one modification of the instrument, I propose to make both guides 30 and ll adiustable, the locating edges adjacent the trochantric and gluteal ridges being dispensed with. In using this modification of the instrument it is initially located generally with reference to the femur and attached. Anterior and lateral X-ray pictures then disclose the position of the instrument on the femur. The initial test wire guide is then adjusted in an amount and direction as indicated by the photographs. However, I prefer to use the locating edges, since experience has shown that by utilizing the trochantric and gluteal landmarks, the instrument is locatable with sufllcient accuracy that there is no danger that the initially placed Kirchner wire will be misplaced. The advantage of this located procedure is that it saves about fifteen to twenty minutes operating time.
Having thus described my invention, what I claim is:
1. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, means for temporarily aflixing said frame means to the femur, said frame being formed with a fixed drill guide, and a universally adjustable drill guide mounted on said drill frame means.
2. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, means for temporarily afilxing said frame means to the femur, said frame being formed with a fixed drill guide, a universally adjustable drill guide mounted on said drill frame means, and protractor means for gauging the angularity of said adjustable drill guide with respect to said frame means.
3. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame having a drill guide means having locating edges oriented for simultaneous contact with the'femur substantially at the trochantric and gluteal ridges respectively said drill guide being oriented with respect to the locating edges so as to guide the drill through the femur neck.
4. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame having a drill guide means having locating edges oriented for simultaneous contact with the femur substantially at the trochantric and gluteal ridges respectively, said drill guide being oriented with respect to said locating edges so as to guide the drill through the femur neck, and handle means for said drill frame means.
, 5. A surgical instrument for use in the fixation of fractures of the neck of right and left femurs comprising a drill frame, said frame being formed with an edge shaped for contact with the lower border of the trochantric ridge of either the right or left femur, and a means on said frame, said means having a pair of edges thereon located for contact one at a time with the gluteal ridge of the right or left femur with which the instrument is used, when the frame is in contact with the I I I trochantric ridge.
6. A surgical instrument for use in the fixation of fractures of the neck of right and left femurs comprising'a drill frame, said frame being formed with an edge shaped for contact with the lower border of the trochantric ridge of either the right or left femur, a locating means on said frame, said locating means having a pair of edges thereon, and an adjustable mounting for said locating means formed to permit limited movement of said locating means to two positions, in one of which positions one of said pair of edges will be oriented with respect to the frame for contact with the gluteal ridge of a right femur when the frame is in contact with the trochantric ridge of said right femur, and in the other of said positions the other of said pair of edges will be oriented with respect to the frame for contact with the gluteal ridge of a left femur when the frame is in contact with the trochantric ridge of said left femur.
7. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means having locating edges oriented for contact with the femur adjacent the trochantric and gluteal ridges respectively, handle means on drill frame means, and a drill guide mounted for movement universally with respect to said drill frame.
8. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means having locating edges oriented for contact with the femur adjacent the trochantric and gluteal ridges respectively, handle means on drill frame means, a drill guide mounted for movement universally with respect to said drill frame, and a second drill guide formed on said frame.
9. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means having locating edges oriented for contact with the femur adjacent the trochantric and gluteal ridges respectively, handle means on drill frame means, a drill guide mounted for movement universally with respect to said drill frame means, and a second guide formed on said frame means, the axis of said second guide being oriented so as to be at an angle of approximately 125 degrees to the major axis of the femur when the locating edges are in contact with the trochantric and gluteal ridges, respectively.
10. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, means for temporarily amxing said frame means to the femur, said frame being formed with a fixed drill guide, a universally adjustable drill guide mounted on said drill frame means and a removable collet for said universally adjustable drill guide.
11. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, a curved supporting edge on said frame means shaped for engagement with the lower trochantric border of a femur, additional supporting means including a supporting edge positioned with respect to said curved supporting edge so as to be engageable with the gluteal ridge of said femur when the curved edge is in engagement with the lower trochantric border, means for temporarily attaching said frame means to said femur, and a drill guide formed on said frame means.
12. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, a curved supporting edge on said frame shaped for engagement with the lower trochantric border of a femur, additional supporting means including a supporting edge positioned with respect to said curved supporting edge so to be engageable with the gluteal ridge of said femur when the curved edge is in engagement with the lower trochantric border, means for temporarily attaching said frame means to said femur, a drill guide formed on said frame means, a second drill guide supported on said frame, said support comprising a ball joint with said frame means, and means for locking said ball joint support to prevent movement of said second drill guide. j 13. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, a curved supporting edge on said frame means shaped for engagement with the lower trochantric border of a femur, additional supporting means including a supporting edge positioned with respect to said curved supporting edge so as to be engageable with the gluteal ridge of said femur when the curved edge is in engagement with the lower trochantric border, and a drill guide formed on said frame means.
I 14. A surgical instrument for use in the fixation of fractures of the neck of the femur comprising a drill frame means, a curved supporting edge on said frame means shaped for engagement with the lower trochantric border of a femur, additional supporting means including a supporting edge positioned with respect to said curved supporting edge so as to be engageable with the gluteal ridge of said femur when the curved edge is in engagement with the lower trochantric border, said frame being formed with a handle for easy location of the frame with respect to the lower border of the trochanter and gluteal ridge, and a drill guide formed on said frame means and oriented with respect to the curved supporting edge of the frame and the edge of said supporting means so as to guide the drill 1| through the femur neck.
WALTER W. NAUTH.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2531734 *||Jul 27, 1945||Nov 28, 1950||Heywood H Hopkins||Hip nail aiming device|
|US2547571 *||Jun 2, 1950||Apr 3, 1951||Zimmer Mfg Company||Hip fracture drill guide|
|US2607339 *||Apr 7, 1950||Aug 19, 1952||James W Price||Adjustable fracture nail guide|
|US2697433 *||Dec 4, 1951||Dec 21, 1954||Max A Zehnder||Device for accurately positioning and guiding guide wires used in the nailing of thefemoral neck|
|US2737724 *||Oct 11, 1950||Mar 13, 1956||James R Herz||Gauge for femoral trochanteric osteotomy|
|US2937642 *||Feb 17, 1956||May 24, 1960||Lange Instr Company||Fracture nail|
|US3017887 *||Jan 19, 1960||Jan 23, 1962||William T Heyer||Stereotaxy device|
|US3021842 *||Nov 5, 1958||Feb 20, 1962||John F Flood||Hypodermic needle guide|
|US3727611 *||Jul 1, 1971||Apr 17, 1973||R Schultz||Alignment means for inserting guide wire prior to inserting hip nail for a fractured hip|
|US3814089 *||Sep 24, 1971||Jun 4, 1974||Deyerle W||Drill jig for total hip prosthesis|
|US3835849 *||Jan 26, 1973||Sep 17, 1974||Mc Guire G||Bone clamp and adjustable drill guide|
|US3892232 *||Sep 24, 1973||Jul 1, 1975||Alonzo J Neufeld||Method and apparatus for performing percutaneous bone surgery|
|US4349018 *||Dec 29, 1980||Sep 14, 1982||Chambers Gary R||Osteotomy apparatus|
|US4383527 *||Feb 20, 1981||May 17, 1983||Howmedica, Inc.||Device for guiding the insertion of surgical wires into bone tissue|
|US4421112 *||May 20, 1982||Dec 20, 1983||Minnesota Mining And Manufacturing Company||Tibial osteotomy guide assembly and method|
|US4441492 *||Feb 23, 1983||Apr 10, 1984||Nils Rydell||Aid for telescopic nail for orthopedic use|
|US4450835 *||Feb 22, 1983||May 29, 1984||Howmedica, Inc.||Method and system for inserting a surgical wire|
|US4522201 *||Apr 14, 1983||Jun 11, 1985||Tongue John R||Orthopedic surgery drill guide apparatus|
|US4744353 *||Apr 18, 1986||May 17, 1988||Mcfarland Joseph R||Method for attaching soft tissue to bone tissue|
|US4860735 *||Aug 8, 1988||Aug 29, 1989||The General Hospital Corporation||Drill alignment guide for osteoplastic surgery|
|US4978351 *||Apr 19, 1989||Dec 18, 1990||Rozas Fernando C||Guiding instrument to pierce the bone cortical, auxiliary in the location of the holes for intra-marrow pins|
|US4997434 *||Feb 1, 1989||Mar 5, 1991||Seedhom Bahaa B||Prosthetic ligaments and instruments for use in the surgical replacement of ligaments|
|US5112335 *||Jul 10, 1990||May 12, 1992||Laboureau Jacques Philippe||Instrument for marking and drilling femoral and tibial insertion tunnels|
|US5133715 *||Feb 4, 1991||Jul 28, 1992||Lenzo Salvatore R||Surgical device for open reduction of bone fractures|
|US5147367 *||Feb 22, 1991||Sep 15, 1992||Ellis Alfred B||Drill pin guide and method for orthopedic surgery|
|US5324296 *||Dec 10, 1991||Jun 28, 1994||Laboureau Jacques Philippe||Surgical ancillary instrument for the marking and drilling of femoral and tibial insertion tunnels in a new knee ligament|
|US5544664 *||May 16, 1994||Aug 13, 1996||Benderev; Theodore V.||Method of advancing a suture through tissue|
|US5611515 *||Apr 5, 1993||Mar 18, 1997||Boston Scientic Corporation||Bladder neck suspension procedure|
|US5620012 *||May 16, 1994||Apr 15, 1997||Benderev; Theodore V.||Method of percutaneously anchoring a suture to a bone|
|US5681320 *||Mar 26, 1996||Oct 28, 1997||Mcguire; David A.||Bone-cutting guide|
|US5741266 *||Sep 19, 1996||Apr 21, 1998||Biomet, Inc.||Pin placement guide and method of making a bone entry hole for implantation of an intramedullary nail|
|US5746763 *||Feb 14, 1995||May 5, 1998||Boston Scientific Technology, Inc.||Device for supporting and positioning medical equipment|
|US5749884 *||Nov 23, 1994||May 12, 1998||Boston Scientific Technology, Inc.||Bone anchor implantation device and method|
|US5766221 *||Feb 9, 1995||Jun 16, 1998||Boston Scientific Technology, Inc.||Bone anchor implantation device|
|US5813408 *||Sep 15, 1995||Sep 29, 1998||Boston Scientific Technology, Inc.||Surgical drape|
|US5836314 *||Jun 6, 1996||Nov 17, 1998||Boston Scientific Technology, Inc.||Surgical treatment of stress urinary incontinence|
|US5836315 *||Aug 27, 1996||Nov 17, 1998||Boston Scientific Technology, Inc.||Method of tensioning a suspended tissue mass|
|US5842478 *||Aug 27, 1996||Dec 1, 1998||Boston Scientific Technology, Inc.||Method of securing a bone anchor|
|US5860425 *||Jan 26, 1996||Jan 19, 1999||Boston Scientific Technology, Inc.||Bladder neck suspension procedure|
|US5895390 *||Jul 23, 1997||Apr 20, 1999||Biomet, Inc.||Pin placement guide used in making a bone entry hole for implantation of an intramedullary nail|
|US5938686 *||Jul 2, 1997||Aug 17, 1999||Boston Scientific Technology, Inc.||Method of installing bone anchor|
|US6001104 *||Feb 20, 1997||Dec 14, 1999||Boston Scientific Technology, Inc.||Bone anchor implantation device|
|US6036696 *||Dec 19, 1997||Mar 14, 2000||Stryker Technologies Corporation||Guide-pin placement device and method of use|
|US6053935 *||Nov 8, 1996||Apr 25, 2000||Boston Scientific Corporation||Transvaginal anchor implantation device|
|US6056688 *||Sep 29, 1997||May 2, 2000||Boston Scientific Technology, Inc.||Device and method for transvaginally suspending the bladder neck|
|US6059789 *||Mar 19, 1999||May 9, 2000||Xomed Surgical Products, Inc.||Drill guide for creating a tunnel in bone for fixating soft tissue to the bone and kit and method for fixating soft tissue to bone|
|US6077216 *||Aug 19, 1998||Jun 20, 2000||Boston Scientific Technology, Inc.||Device for transvaginally suspending the bladder neck|
|US6096041 *||Jan 26, 1999||Aug 1, 2000||Scimed Life Systems, Inc.||Bone anchors for bone anchor implantation device|
|US6214013||Dec 10, 1999||Apr 10, 2001||Stryker Technologies Corporation||Method of using a guide-pin placement device|
|US6241736||May 11, 1999||Jun 5, 2001||Scimed Life Systems, Inc.||Manual bone anchor placement devices|
|US6319272||Mar 29, 2000||Nov 20, 2001||Boston Scientific Corporation||Transvaginal anchor implantation device and method of use|
|US6342057||Apr 28, 2000||Jan 29, 2002||Synthes (Usa)||Remotely aligned surgical drill guide|
|US6379364||Apr 28, 2000||Apr 30, 2002||Synthes (Usa)||Dual drill guide for a locking bone plate|
|US6440154||Mar 12, 2001||Aug 27, 2002||Scimed Life Systems, Inc.||Protective sheath for transvaginal anchor implantation device|
|US6520969||Feb 26, 2001||Feb 18, 2003||Stryker Technologies Corporation||Guide-pin placement device|
|US6589249||Mar 26, 2001||Jul 8, 2003||Scimed Life Systems, Inc.||Manual bone anchor placement devices|
|US6660010||Dec 15, 2000||Dec 9, 2003||Scimed Life Systems, Inc.||Bone anchor placement device with recessed anchor mount|
|US6893446||May 21, 2003||May 17, 2005||Boston Scientific Scimed, Inc.||Manual bone anchor placement devices|
|US6936052||Mar 7, 2002||Aug 30, 2005||Boston Scientific Scimed, Inc.||System for implanting an implant and method thereof|
|US6939355||May 26, 2000||Sep 6, 2005||Boston Scientific Scimed, Inc.||Bone anchors for bone anchor implantation device|
|US6991597||Mar 7, 2002||Jan 31, 2006||Boston Scientific Scimed, Inc.||System for implanting an implant and method thereof|
|US7025772||Mar 7, 2002||Apr 11, 2006||Scimed Life Systems, Inc.||System for implanting an implant and method thereof|
|US7081119||Jul 30, 2004||Jul 25, 2006||Hfsc Company||Drill guide assembly for a bone fixation device|
|US7131973||May 16, 2002||Nov 7, 2006||Boston Scientific Scimed, Inc.||Bone anchor implantation device|
|US7235043||Mar 7, 2002||Jun 26, 2007||Boston Scientific Scimed Inc.||System for implanting an implant and method thereof|
|US7357804||Aug 13, 2003||Apr 15, 2008||Synthes (U.S.A.)||Quick-release drill-guide assembly for bone-plate|
|US7361138||Jul 31, 2003||Apr 22, 2008||Scimed Life Systems, Inc.||Bioabsorbable casing for surgical sling assembly|
|US7402133||Aug 14, 2003||Jul 22, 2008||Boston Scientific Scimed, Inc.||Spacer for sling delivery system|
|US7674269||Feb 13, 2006||Mar 9, 2010||Boston Scientific Scimed, Inc.||Bone anchor implantation device|
|US7731721||Jul 16, 2003||Jun 8, 2010||Synthes Usa, Llc||Plating system with multiple function drill guide|
|US7824326||Feb 29, 2008||Nov 2, 2010||Boston Scientific Scimed, Inc.||Bioabsorbable casing for surgical sling assembly|
|US7879042||Mar 5, 2004||Feb 1, 2011||Depuy Products, Inc.||Surface replacement extractor device and associated method|
|US7881770 *||Mar 16, 2004||Feb 1, 2011||Medtronic Navigation, Inc.||Multiple cannula image guided tool for image guided procedures|
|US8033983||Aug 14, 2003||Oct 11, 2011||Boston Scientific Scimed, Inc.||Medical implant|
|US8070755||Mar 24, 2009||Dec 6, 2011||Depuy Products, Inc.||Joint arthroplasty kit and method|
|US8105327 *||Mar 5, 2004||Jan 31, 2012||Depuy Products, Inc.||Punch, implant and associated method|
|US8162816||Mar 7, 2002||Apr 24, 2012||Boston Scientific Scimed, Inc.||System for implanting an implant and method thereof|
|US8177823||Jun 30, 2005||May 15, 2012||Depuy Spine Sarl||Orthopedic clamping hook assembly|
|US8182541||Apr 9, 2009||May 22, 2012||Depuy Products, Inc.||Extended articulation orthopaedic implant|
|US8202276 *||Jan 21, 2009||Jun 19, 2012||Synthes Usa, Llc||Coplanar X-ray guided aiming arm for locking of intramedullary nails|
|US8282649||Oct 13, 2009||Oct 9, 2012||Depuy Products, Inc.||Extended articulation orthopaedic implant|
|US8366713||Mar 31, 2003||Feb 5, 2013||Depuy Products, Inc.||Arthroplasty instruments and associated method|
|US8439928 *||May 14, 2013||Wright Medical Technology, Inc.||Instrument for use in minimally invasive surgery|
|US8444646||Apr 9, 2009||May 21, 2013||Depuy Products, Inc.||Bone preparation tool kit and associated method|
|US8545506||Oct 30, 2009||Oct 1, 2013||DePuy Synthes Products, LLC||Cutting guide for use with an extended articulation orthopaedic implant|
|US8617048||Mar 7, 2002||Dec 31, 2013||Boston Scientific Scimed, Inc.||System for implanting an implant and method thereof|
|US8632453||Jul 15, 2008||Jan 21, 2014||Boston Scientific Scimed, Inc.||Spacer for sling delivery system|
|US8814943||May 1, 2013||Aug 26, 2014||DePuy Synthes Products,LLC||Bone preparation tool kit and associated method|
|US8840619 *||Mar 30, 2010||Sep 23, 2014||Arthrex, Inc.||Dovetail method of allograft transplantation|
|US8882776||Aug 29, 2013||Nov 11, 2014||DePuy Synthes Products, LLC||Extended articulation orthopaedic implant|
|US8974458||Jan 25, 2013||Mar 10, 2015||DePuy Synthes Products, LLC||Arthroplasty instruments and associated method|
|US9107758||Aug 1, 2014||Aug 18, 2015||DePuy Synthes Products, Inc.||Bone preparation tool kit and associated method|
|US20040193168 *||Mar 31, 2003||Sep 30, 2004||Long Jack F.||Arthroplasty instruments and associated method|
|US20050015092 *||Jul 16, 2003||Jan 20, 2005||Rathbun David S.||Plating system with multiple function drill guide|
|US20050015093 *||Apr 30, 2004||Jan 20, 2005||Suh Sean S.||Plating system with compression drill guide|
|US20050027301 *||Jul 30, 2004||Feb 3, 2005||Pascal Stihl||Drill guide assembly for a bone fixation device|
|US20050038444 *||Aug 13, 2003||Feb 17, 2005||Binder Lawrence J.||Quick-release drill-guide assembly for bone-plate|
|US20060149390 *||Mar 5, 2004||Jul 6, 2006||Long Jack F||Punch, implant and associated method|
|US20060155283 *||Jan 7, 2005||Jul 13, 2006||Depuy Spine Sarl||Occipital plate and guide systems|
|US20060155284 *||Jan 7, 2005||Jul 13, 2006||Depuy Spine Sarl||Occipital plate and guide systems|
|US20070016189 *||Jun 30, 2005||Jan 18, 2007||Depuy Spine Sarl||Orthopedic clamping hook assembly|
|US20100121335 *||Jan 22, 2010||May 13, 2010||Wright Medical Technology, Inc.||Instrument for Use in Minimally Invasive Surgery|
|US20100256645 *||Mar 30, 2010||Oct 7, 2010||Zajac Eric S||Dovetail method of allograft transplantation|
|US20110118593 *||May 19, 2011||Medtronic Navigation, Inc.||Multiple Cannula Image Guided Tool for Image Guided Procedures|
|DE2919935A1 *||May 17, 1979||Nov 20, 1980||Hug Gerhard Gmbh||Vorrichtung zur fuehrung chirurgischer instrumente bei der umstellungsosteotomie am menschlichen hueftknochen|
|EP0059044A2 *||Feb 9, 1982||Sep 1, 1982||Pfizer Hospital Products Group, Inc.||Tool for use in inserting a surgical wire|
|EP0081857A1 *||Dec 15, 1982||Jun 22, 1983||Gerhard Dawidowski||Angular drill jig|
|EP0167719A1 *||Apr 6, 1985||Jan 15, 1986||HOWMEDICA INTERNATIONAL, INC. Zweigniederlassung Kiel||Aiming device for producing transverse holes in bones|
|U.S. Classification||606/97, 408/110, 408/115.00R|
|Cooperative Classification||A61B17/1721, A61B17/1703|
|European Classification||A61B17/17K, A61B17/17B|