US3841521A - Repeating ligature guns, multi-ligature cartridges and preformed ligatures therefor - Google Patents

Abstract

A preformed ligature comprises a loop, loop forming closure and an extension which may be pulled to close the loop about a bleeder. One preformed ligature according to the invention is formed of a continuous loop of gut or synthetic suture material tied into a slip knot to form the closure and the extension is the second loop thus formed therein which may be pulled by means of a hook. Another preformed dual loop ligature is formed of a continuous loop of suture material and a narrow enveloping closure. The loop preferably has a ratchet-like surface and the closure a cooperating pawl-like surface to provide a ligature loop that may only slip one way. Repeating ligature guns for applying a plurality of such preformed ligatures comprise a tubular cartridge on which a plurality of the ligatures are preformed; the cartridge comprising a helical loop engaged track for advancing the ligatures toward the end thereof. During a surgical procedure, successive cartridges may be mounted on the instrument provided by the invention. The instrument comprises clamping jaws coaxial with the mounted cartridge for pulling a clamped bleeder into the end of the tubular cartridge and means for rotating the cartridge one revolution to advance a ligature off the end of its helical track. The cartridge preferably comprises a bar about which the second loops of the preferred forms of preformed ligatures are formed for preventing rotation of the ligatures as they are advanced by the helical track and for pushing against the slip knot or closure when the ligature is being tightened. A trigger on the ligature gun controls closure of the jaws and withdrawing of the bleeder into the end of the cartridge while rotating the cartridge one revolution by means of a cam mechanism to release a ligature. The cam track may be part of the cartridge or part of the instrument. The instrument is provided with a hook for engaging the second loop of the pretied ligature and for pulling the same to tighten the ligature about a bleeder. The hook may be actuated by the first trigger or by a second hook trigger. In one embodiment of the invention, a cutter is provided for cutting the extended loop of the pretied ligature.

Description

United States Patent [191 J arvik Oct. 15, 1974 REPEATING LlGATURE GUNS,

MULTl-LIGATURE CARTRIDGES AND PREFORMED LlGATURES THEREFOR [76] Inventor: Robert K. Jarvik, 17 Douglass Ave.,

Stamford, Conn. 06906 221 Filed: Aug. 25, 1972 211 Appl. No.: 283,773

Related U.S. Application Data [62] Division of Ser. No. 064,161, Aug. 17, 1970, Pat, 3,887,138

[52] U.S. C1 221/75, 29/212 D, 221/312 A [51] Int. Cl. 865g 33/04 [58] Field of Search 29/212 D, 212 R;

128/303 A, 320, 326, 334 R; 221/75, 312 A [56] References Cited UNITED STATES PATENTS 1,122,365 12/1914 Burch 221/75 FOREIGN PATENTS OR APPLICATIONS 1,464,301 11/1966 France 222/75 Primary Examiner-Robert B. Reeves Assistant Examiner-David A. Scherbel Attorney, Agent, or FirmMattern, Ware and Davis [5 7 ABSTRACT ture is formed of a continuous loop of suture material and a narrow enveloping closure. The loop preferably has a ratchet-like surface and the closure a cooperating pawl-like surface to provide a ligature loop that may only slip one way.

Repeating ligature guns for applying a plurality of such preformed ligatures comprise a tubular cartridge on which a plurality of the ligatures are preformed; the cartridge comprising a helical loop engaged track for advancing the ligatures toward the end thereof. During a surgical procedure, successive cartridges may be mounted on the instrument provided by the invention. The instrument comprises clamping jaws coaxial with the mounted cartridge for pulling a clamped bleeder into the end of the tubular cartridge and means for rotating the cartridge one revolution to advance a ligature off the end of its helical track. The cartridge preferably comprises a bar about which the second loops of the preferred forms of preformed ligatures are formed for preventing rotation of the ligatures as they are advanced by the helical track and for pushing against the slip knot or closure when the ligature is being tightened. A trigger on the ligature gun controls closure of the jaws and withdrawing of the bleeder into the end of the cartridge while rotating the cartridge one revolution by means of a cam mechanism to release a ligature. The cam track may be part of the cartridge or part of the instrument. The instrument is provided with a hook for engaging the second loop of the pretied ligature and for pulling the same to tighten the ligature about a bleeder. The hook may be actuated by the first trigger or by a second hook trigger. In one embodiment of the invention, a cutter is provided for cutting the extended loop of the pretied ligature.

24 Claims, 32 Drawing Figures PATENIEUDCT 1 5:924

SHEET 2 OF 5 am? Nb? NE ow wv my Q.

mm mm it, @n 3 \NHF l-mf, 7 3v :5 @m E 5k 5 a f a 8 a PATENTEUUCT 1 5mm SHEET Q 0? 5 Nov REPEATING LIGATURE GUNS, MULTI-LIGATURE CARTRIDGES AND PREFORMED LIGATURES THEREFOR This is a division of application Ser. No. 064,161 filed Aug. 17, 1 970, U.S. Pat, 3 ,887,138.

SUMMARY OF THE INVENTION This invention relates to repeating ligature guns, multi-ligature cartridges, and preformed ligatures therefor. More particularly, it relates to the rapid and repeated ligation of so-called bleeders in surgical procedures.

After a surgeon has made as incision, it is necessary to clamp the tissue wherever blood is being lost due to the cutting of blood vessels. The usual technique is to clamp each so-called bleeder with a hemostat (locking dog nosed pliers) as soon after the vessel is severed as possible. This controls the loss of blood until a ligature can be tied around the vessel. As many as or more bleeders may be clamped by as many hemostats in common surgical procedures before they are tied. Thus, a single operation often requires the use of a large number of hemostats. These are handed to the surgeon and his assistants, one at a time, by the scrub nurse.

The surgical field often becomes cluttered with hemostats, which interfere with the surgeons view and hinder the convenient application of additional hemostats. However, good surgical practice requires the application of hemostats to all bleeders before any are tied.

The tying process requires one hand to hold the hemostat and two hands to pass the suture material around the hemostat and to form the ligature by tying a knot. This procedure thus requires two people. In addition, the ligatures must be cut and the excess suture material removed from the incision. The used hemostats must be handed to the scrub nurse and be readied for reuse. Thus, this entire technique for the achievement of hemostasis requires the coordination and teamwork of at least three people. The speed with which the bleeders may be tied off is often the determining factor in the time required for the opening stages of many surgical operations.

Many instruments have been disclosed in the prior art for ligating bleeders. However, none of these have come into general use, due to inherent deficiencies. lnstruments such as disclosed in U.S. Pat. Nos. 3,033,204, 3,040,747, and 3,l69,526, issued to E. C. Wood; U.S. Pat. No. 2,268,755, issued to S. F. Li; and U.S. Pat. No. 1,635,602, issued to H. G. Gould et al., have been designed for aiding the surgeon in applying a single pretied length of suture material to a bleeder. Other instruments, such as that disclosed in U.S. Pat. No. 2,37l,082 issued to F. Vistreich are designed to apply a single collar of resilient material to a deep bleeder. However, these instruments, since they apply only one ligature at a time after which another preformed ligature must be affixed to the instrument be fore it can then be applied to the next bleeder, do not materially reduce the amount of time or effort required in a surgical procedure. Other more complex instruments, such as disclosed in U.S. Pat. Nos. 2,898,915 and 2,898,916, issued to K. Kammer, have been devised for automaticallly tying a successive plurality of ligatures from a spool of suture material. However, these instruments are complex, are difficult to load with the suture material, and, being complicated, are

hard to disassemble and sterilize. None of the above prior art instruments have come into general use.

What is needed is an instrument which will rapidly and repeatedly clamp and ligate bleeders; and instrument that can be operated with one hand; an instrument which does not leave any excess material, such as cut ends in the incision; an instrument which may be reloaded by means of a cartridge with a plurality of pretied ligatures repeatedly during an operation; and an instrument which is easy to disassemble and sterilize.

OBJECTS OF THE INVENTION It is therefore an object of the invention to improve the art of surgery.

Another object of the invention is to provide for rapid ligation of a plurality of bleeders.

Still another object of the invention is to provide pretied ligatures for facilitating the above objects.

A furthe object of the invention is to provide an instrument for applying a plurality of ligatures of the above character.

Another object of the invention is to provide an instrument of the above character which may be operated by one hand.

A further object of the invention is to provide an instrument of the above character which leaves no excess material or cut ends on the sutures in the body which have to be removed by the surgeon.

Still another object of the invention is to provide an instrument of the above character which is convenient to sterilize.

Yet another object of the invention is to provide an instrument of the above character which does not require lubrication.

Still another object of the invention is to provide an instrument of the above character employing a replaceable cartridge or carrier for a plurality of pretied ligatures of the above character.

A further object of the invention is to provide a cartridge of the above character which is disposable.

A still further object of the invention is to provide an instrument of the above character which can affix ligatures to bleeders with varying tension according to the size of the vessel and type of tissue in which it occurs.

Still another object of the invention is to provide an instrument, cartridge and preformed ligatures of the above character which may be mass produced at low cost, are convenient to use and require little or no servicing.

Other objects of the invention will in part be obvious and will in part appear hereinafter.

The invention accordingly comprises articles of manufacture possessing the features, properties and the relations of elements which will be exemplified in the articles hereinafter described, and apparatus comprising the features of construction, combinations of elements and arrangements of parts which will be exemplified in the constructions hereinafter set forth. The scope of the invention is indicated in the claims.

THE DRAWINGS For a fuller understanding of the nature and objects of the invention, reference should be had to the following detailed description taken in connection with the accompanying drawings in which:

FIG. 1 is a side view, partially in cross section, of a repeating ligature gun according to the invention;

FIG. 2 is an enlarged fragmentary side view, partially in cross section, of the disposable multiple ligaturebearing cartridge of the repeating ligature gun of FIG.

FIG. 3 is a cross sectional view taken along the lines 33 of FIG. 2;

FIG. 4 is a cross sectional view taken along the lines 4-4 of FIG. 2;

FIG. 5 is an enlarged fragmentary perspective view of the cartridge-engaging portion of the ligature gun of FIG. 1;

FIG. 6 is a top view of a continuous loop of suture material which may be formed into a pretied ligature according to the invention.

FIGS. 6A, 6B, 6C, 6D, and 6E illustrate the manner in which the continuous loop suture of FIG. 6 may be formed into a pretied ligature according to the inventron;

FIG. 7 is a side view, partially cut away and partially in cross section and similar to FIG. 1, of the repeating ligature gun of FIG. 1;

FIG. 8 is an enlarged perspective view of a cam in the ligature gun of FIG.1;

FIG. 9 is an enlarged cross sectional view taken along the lines 9-9 of FIG. 7;

FIG. 10 is an enlarged cross sectional view taken along the lines 10-10 of FIG. 7;

FIGS. ll, 12 and 13 are enlarged fragmentary sid views of the tissue engaging end of the repeating ligature gun of FIG. 1, illustrating the application of a ligature as shown in FIG. 6 to a bleeder;

FIG. 14 is a front view taken along the lines l4l4 of FIG. 11 with the bleeder removed;

FIG. 15 is a side view of the elements of the repeating ligature gun of FIG. 1 disassembled for cleaning and sterilization;

FIG. 16 is a perspective view of another embodiment of the repeating ligature gun of the present invention;

FIG. 17 is a side view of the repeating ligature gun of FIG. 16;

FIG. 18 is an enlarged fragmentary side view partially in cross section, of the repeating ligature gun of FIG. 16;

FIG. 19 is a fragmentary enlarged cross sectional view taken along the lines 19-19 of FIG. 17;

FIG. 20 is a fragmentary cross sectional view taken along the lines 20-20 of FIG. 18;

FIGS. 21 and 22 are enlarged fragmentary side views of the tissue engaging end of the repeating ligature gun of FIG. 17, illustrating the application of a ligature as shown in FIG. 24;

FIG. 23 is a fragmentary side view, partially in cross section of a modification of the repeating ligature gun of FIG. 15;

FIG. 24 is a top view of a preformed ligature according to the invention;

FIG. 24A is a top view of a portion of the ligature of FIG. 24;

FIG. 24B is a cross sectional view taken along the lines 24B24B of FIG. 24; and

FIG. 24C is a cross sectional view taken along thelines 24C-24C of FIG. 248.

The same reference characters refer to the same elements throughout the several view of the drawings.

GENERAL DESCRIPTION In general, preformed ligatures according to the invention comprise a continuous loop of suture material, that has been tied into a slip knot as illustrated in FIG. 6D or which is provided with a tight-fitting collar as illustrated in FIG. 24 to form the pretied ligature into two loops, one of which may be expanded to contract the other, the contracting loop becoming the actual ligature.

A plurality of such ligatures are mounted on a ligature carrier cartridge, as illustrated in FIGS. 2 and 16. The barrel of the carrier is provided with a helical track about one turn of which one of the loops of each of the preformed ligatures is engaged. The other loop of each ligature is engaged about an elongated pin slightly displaced from and parallel to the helical track.

A cam is provided for rotating the helical track with respect to the elongated pin. The cam may be a portion of the ligature gun, as illutrated in FIGS. 7 and 8, or may be a portion of the cartridge, as illustrated in FIG. 16.

The cartridge has an axial bore through which, when the cartridge is mounted on the ligature gun, gripper jaws may be retracted to pull a bleeder into the end of the cartridge.

The repeating ligature guns of the invention are provided with means for rotating the helical track one revolution each time the jaws are retracted into the end of the cartridge. Preferably a single trigger causes the jaws to grip the bleeder, draw the bleeder into the cartridge, and to rotate the helical track to allow the ligature to engage the bleeder. Another trigger is provided which operates a hook, which thereafter engages the second loop of the preformed ligature and pulls the same such that the slip knot or collar thereof is caused to move towards the bleeder and the loop about the bleeder to close therearound, forming the ligature.

In one embodiment of the invention, the open loop not engaging the bleeder is then cut to release it from the gun. In another embodiment of the invention, it is not cut.

All embodiments of the invention provide for the application of a large plurality of ligatures before it is necessary to reload the instrument and also provide for convenient reloading of the instrument so a single instrument may be used throughout the course of a single operation.

SPECIFIC DESCRIPTION More particularly, referring to FIG. 1, a repeatingligature gun 12 according to the invention comprises an elongatedouter barrel 14; ahandle 16; tissue-gripping jaws, generally indicated at 18; a ligature cartridge, generally indicated at 20; a cam assembly, generally indicated at 22, for rotating theligature cartridge 20; atrigger 24 for closing thejaws 18, for causing the jaws to retract within thecartridge 20, and for rotating thecartridge 20 by means of thecam mechanism 22; a hook mechanism, generally indicated at 26; atrigger 28 for operating the same; acutter 30; and atrigger 32 for operating the cutter.

As illustrated in FIGS. 1, 7, and 15, thehandle 16 is provided with abore 34 for engaging thebarrel 14. Thehandle 16 is clamped onto thebarrel 14 between a circumferentialannular stop 36 and anend cap 38 threaded onto thebarrel 14 atthreads 40. The lowermost portion of thebarrel 14 is slotted as at 66 and is engaged by a key 44 formed on thehandle 16 to prevent relative rotationof thebarrel 14 with respect to thehandle 16 and to provide a stop for the stroke ofextension 64 described below.

, Referring to FIG. 1', theupper jaw 46 of the gripping jaws v18 is integrally formed on anelongated rod 48 which passes through the entire length of the instrument. A bore 50 is formed in the end cap to support one end of therod 48, the other end being supported bypin 62 as described below. Thelower jaw 52 is pivoted torod 48 atpivot 54. The forward end of rod 48- is half round so that a second halfround rod 56 can actuatelower jaw 52 by means of its attachment at pivot Still referring to FIG. 1, the elongatedupper jaw rod 48 is mounted to aninner barrel assembly 60 atpin 62.

Referring to FIGS. 1, 7,'and 10,inner barrel assembly 60 is provided with anextension 64 which passes throughslot 65 provided inouter barrel 14.Extension 64 is provided with a pair of dependingextensions arms 66 and 68 best seen in FIG. 10.Trigger 24 is mounted for-pivotal rotation about apivot 70, extending betweenextension arms 66 and 68.Trigger 24 is provided with a pair of wishbone-like extensions 6767 which engage slots 6'969 in the lower half-roundjaw actuating rod 56.

Referring to FIG. 1,inner barrel assembly 60 is biased forward by means'of acompression spring 72 untilextension arms 66 and 68 come to rest against theforward end 74 ofslot 65. In this relaxed position, theforward edge 76 oftrigger 24 also comes into contact with theslot edge 74 and the trigger is biased clockwise to openjaws 18.

When thetrigger 24 is initially pulled towards thehandle 16, itsinitial counterclockwise rotation pushes lowerjaw actuating rod 56 forward, rotatinglower jaw 52 clockwise as seen in FIG. 1, thus, closing thejaws 18. Further pulling of thetrigger 24 causes theinner barrel assembly 60 to move rearwardly against the action ofspring 72. Thus, as illustrated in FIG. 11, thejaws 18 first clamp thetissue 78, and thereafter draw the same within the ends of thecartridge assembly 20. Thecartridge assembly 20 is mounted to the forward end of theouter barrel 14. As best seen in FIGS. 1 and 2, thecartridge assembly 20 is provided with anouter barrel 80 having a circumferential outwardly extending annular stop 82 (see also FIG. which is engaged with theforward end 84 of thebarrel 14. An extended key-shapedsection 86 fits into akey slot 88, best seen in FIG. 5, formed in the end ofbarrel 14.Barrel 14 is provided with aspring hook 90 formed as an extension of aring 92 for holding theannular stop 82 against the end of 84 of thebarrel 14. Thering 92 is held from forward motion by means of atab 94 extending into ahole 96 formed inthetbarrel 14.

Again referring'to FIG. 2, the carrier or cartridge is provided with an elongatedhollow cylinder portion 98, which is free to rotate within theouter cylinder 88, but is prevented from lateral motion by means of a circumferential inwardly dependinggroove 100 in thecylinder 98 and one or more bosses orridges 102 inwardly depending from theouter cylinder 80. Theinner cylinder 98 is further provided with a pair ofjaw extensions 104, 106 which engage thecam mechanism 22.

A plurality ofpretied sutures 108, according to the invention, are mounted in a continuoushelical groove extension 86 of theouter cylinder 80. Thus, rotation of theinner cylinder 98 by means of theextension 104 and 106 in the clockwise direction, as seen in FIG. 3,

will cause thesutures 108 to advance along the cartridge 20'and for each rotation one will be released from the end thereof.

To this end, acam 118, best illustrated in FIG. 8, is provided. The cam is hollow to provide for thejaw rods 48 and 56. One end thereof is provided with a slot for receiving theextension arms 104 and 106 of thecartridge 20. As shown in FIGS. 1 and 7, the cam is mounted within theouter barrel 14. The outwardly extendingcollar 122 of the.cam 118 engages the inwardly extendingcollar 124 within thebarrel 14 and prevents rearward motion of thecam 118. Forward motion is prevented by engagement against thecartridge 20.

Cam 118, as best shownin FIG. 8, is provided with a continuouscircumferential cam track 126, comprising a helical curbed portion 128 encompassing approximately a 360 traverse of thecam 118 and astraight portion 130 connecting the two ends of the helical portion 128. The cam track 128 is engaged by acam pin 132 mounted toinner barrel assembly 60. Thus, whentrigger 24 is drawn back towardshandle 16,pin 132 rides in the curved portion 128 of cam I18, causingcam 118 to turn clockwise, as seen in FIG. 8, one revolution, thus releasing the pretied suture 108 (FIG. 2) at the forward end of thecartridge 20, as best seen in FIG. 14. When thetrigger 24 is released,cam pin 132 traverses thestraight portion 130 of thecam track 126, readying thecam mechanism 22 for the next suture tying operation.

As best seen in FIGS. 11 through 13,pin 116 is provided with anend slot 134.Slot 134 receiveshook 136 integral withhook arm 137 which is mounted to cutter arm 138 (FIGS. 1 and 7) atpivot pin 14. The entire cutter and hook operating assembly, generally indicated at 142, is mounted betweenbrackets 144, and

which are integral with and extend belowbarrel 14. Pivotarms 146 and 148 are pivoted betweenbrackets 144 and 145 atpivots 150 and 152.Cutter arm 138 is pivoted to pivotarms 146 and 148 at pivot pins 154 and 156 respectively.Cutter arm 138 is provided withslots 153, and 157 for receivinghook arm 137, and pivotarms 146 and 148 which are of reduced thickness nearpivots 140, 154 and 156.Trigger 28 is formed as an extension ofhook arm 138.

Because theforward pivot arm 146 is longer than therear pivot arm 148, when thetrigger 28 is drawn rearwardly, the forward end ofarm 138 will swing in a greater are downward and rearward, carrying thehook 136 along with it. The hook engages thelower loop 114 of thepretied suture 108, as best seen in FIG. 12, and draws it tight about thetissue 78. Thehook 136 remains biased upwardly with respect to the forward end ofcutter arm 138 through the action of downwardly biasingleaf spring 158, mounted to and betweenbrackets 144 and 145,spring 158 biases acutter trigger portion 160 of hook arm I37 clockwise aboutpivot 140. When thetrigger 160 is pushed upwardly,hook 136 is caused to be drawn down into aslot 162 formed in the end ofcutter arm 138, as best seen in FIG. 14.Slot 162 and hook 136 are provided with cooperating scissors-likesharp edges 164 and 166, which cut thelower loop 114 of thepretied suture 108, as best seen in FIG. 13.Hook arm 138 is biased upwardly by means ofleaf spring 168.

It should be noted as best seen in FIGS. 11 through 13 that whenloop 114 is pulled downwardly and rearwardly byhook 136, theforward end 170 ofpin 116 which is curved upwards retains theknot portion 172 of theligature 108 and pushes the same towards thebleeder tissue 78. Thus the ligature is tightened not only by pulling theloop 114 through theknot portion 172 but by actually pushing the knot portion against thebleeder 78.

Now referring to FIG. 6, each of theligatures 108 is formed of a continuous loop ofsuture material 174 which may be gut or manmade absorbable material such as polyhydroxyacetic ester as disclosed in U.S. Pat. Nos. 3,225,766 and 3,297,033. Thematerial 174 is preferably, but not necessarily, round in cross section. It is formed into a preformed suture as shown in FIG. 6D by first twisting it into the double loop configuration shown in FIG. 6A and then pulling a portion of the upper loop through the lower loop thus formed as shown in FIGS. 68 and 6C. The resultingpretied ligature 108 has two stable positions, those shown in FIGS. 6D and 6E. It is preferred that the sutures be mounted about thecartridge cylinder 98 andpin 116 as shown in FIG. 6D rather than as shown in FIG. 6E. It has been found that when it is mounted as shown in FIG. 6D theslip knot portion 172 thereof remains open as shown in FIG. 6D against thepin 116 of the cartridge (FIG. 2) until thebleeder 78 begins resisting closure of theloop 112 when the ligature is nearly tight. This allowsportion 176 of theligature 108 to be drawn easily through theslip knot 172 until the final tightening. If the ligature is mounted as illustrated in FIG. 6E theportion 176 tends to interfere with theportion 178 during tightening and theknot 172 tends to become tight prematurely.

The repeating suture gun illustrated in FIGS. 1 through 13 is preferably manufactured of stainless steel which can be given a smooth surface so that all parts will operate easily without lubrication and can be conveniently sterilized. Thecartridge 20 of FIG. 2 is preferably formed of Delrin or other plastic material which also can be sterilized. Thepin 116 is stainless steel.

Summarizing the operation of the ligature gun, cartridge and ligatures illustrated in FIGS. 1 through 14 the surgeon holds thegun 12 in one hand by placing his thumb, third and fourth fingers about thehandle 16. The middle finger operates themain trigger 24 and the index finger operates thehook trigger 28 and thecutter trigger 32.

When the surgeon pulls thetrigger 24 towards thehandle 16 with his middle finger,jaws 18 clamp about the bleeder and pull it inwardly into the hollow interior ofcylinder 98 ofcartridge 20. At the same time,pin 132 moving in helical cam track 128 rotates the cartridge one revolution, releasing the end pretied ligature 108' as seen in FIG. 11. The surgeon then pulls trigger 28 with his index finger drawing thehook 136 andcutter arm 138 downward and rearward as seen in FIG. 12. This pullsportion 176 ofpretied ligature 108 as seen in FIG. 6D throughslip knot portion 172. At the same time,pin 116 holdsknot portion 172 open and in effect pushes it against bleeder 78 (FIG. 12) and theslip knot 172 is drawn tight. The amount of tightness is controlled by the surgeon in accordance with the amount of forcejapplied to trigger 28. The surgeon then pushes his index finger slightly upward, engagingcutter trigger 32 which causeshook 136 to pass through opening 162 incutter bar 138, thus cuttingloop 114. Whentrigger 24 is releasedjaws 18 move forward and open, releasing theligatured bleeder 78.

Now referring to FIG. 15, the entire mechanism may be conveniently disassembled for cleaning, as shown. Note the thecam 118 may be removed from theouter barrel 14 through the front of barrel l4 and that the inner barrel assembly is removed by pulling it out of the rear ofbarrel 14 afterbarrel 14 has been disassembled fromhandle 16. Thecartridge 20 is preferably supplied with pretied ligatures and the cartridge assembly sterilized. Thus, a plurality of cartridges may be made available for use in a single operation.

An alternative embodiment of the invention is illustrated in FIGS. 16 through 20. In this embodiment, theligature cartridge 200 has anintegral cam 202. This allows the repeating ligature gun, generally indicated at 204, to be cleaned without disassembly. Furthermore, thecam 202 being of plastic material provides a smoother action when it is being rotated bypin 206.

As seen in FIG. 17 in itsunactuated position hook 208 is spaced from the end ofcartridge pin 210. When thehook trigger 212 is operated,hook 208 is recessed in anopening 214 in the end ofpin 210 to engage thelower loop 216 of preformedligature 218. Theligature 218 is then drawn tight againstpin 210 as shown in FIG. 21, and whentrigger 212 is released thelower loop 216 of theligature 218 is allowed to escape through the opening between the end of thehook 208 and thepin 210. Thus, thelower loop 216 need not be cut.

Another advantage of the embodiment shown in FIGS. 16 through 22 is that thehook trigger 212 is recessed within the jaws trigger 220. Note particularly and referring is FIGS. 16 and 17, that the repeatingligature gun 204 is provided with ahandle 222 to which are mounted a pair of elongated support bars 224 and 226.Upper gripper jaw 228 is formed integrally on the end of anelongated shaft 230 which is half round at its forward end, and of circular cross section at its rearward end. This rod-like portion extends throughopening 232 inhandle 22, and is fixed to atrigger assembly 234 by pin 236 (FIG. 18).

Trigger assembly 234 is slidably mounted onbars 224 and 226 and is forwardly biased bysprings 238 and 240.Arm 242 integral withtrigger assembly 234 mountspin 206 which engagescam track 244 ofcam 202 as illustrated in FIG. 17.Cam track 244 is the same shape ascam track 126 illustrated in FIG. 8.Trigger 220 is pivotally mounted to triggerassembly 234 atpin 248, as best seen in FIG. 19.Slot 250 is formed intrigger 220 to receivehook trigger 212 as also seen in FIG. 19.Trigger 220 is normally biased in the clockwise direction aboutpin 248 due to springs 238-240 and the engagement of the forwardupper edge 252 thereof with the end ofcam 202. This causes a wishbone connection, generally indicated at 254, to a push lower jaw operating halfround bar 256 rearwardly to open alower jaw 258 which is pivoted to upperjaw actuating bar 230 atpivot 260 and to lowerjaw actuating bar 256 atpivot 262.

Abarrel assembly 264 is mounted to the forward end ofsupport rods 224 and 226.Barrel assembly 264 comrpises an inwardly depending annular stop 266 (best seen in FIG. 18) and a spring-like retaining clip 268.Clip 268 fits into arecess 270 inouter cylinder portion 272 ofcartridge 200 and prevents rotation or forward motion thereof when it is inserted inbarrel assembly 264.

As best seen in FIG. 16,cartridge 200 comprises a hollowcylindrical portion 274 having ahelical track 276 and a rearwardextension forcing cam 202. Outwardly extendingannular collar 278 ofportion 274 fits between stop 266 andouter cylinder 272 when the cartridge is mounted inbarrel assembly 264 to prevent forward or rearward motion thereof.Outer cylinder 272 is provided with an integrally dependingdetent projection 280 which cooperates with inwardly dependingannular depression 282 incylinder 274 to keep the cartridge assembled.Metal rod 210 is press fit withinouter cylinder 272 which preferably is of Delrin or other sterilizable plastic material as isinner cylinder 274.

The pretied or preformedligatures 218 are mounted on thecartridge 200 in the manner described with reference to previous embodiments. That is, they may be the preformed sutures shown in FIG. 24 and as illustrated in FIG. 17 through 22 or they may be the form illustrated in FIG. 6D.

Hook 208 is mounted onelongated hook rod 284 and is slidable withinstrap 286 formed onhook guide arm 290. Therearward end 291 ofhook guide arm 290 is pivotally mounted withinrecess 293 inhandle extension 294 onpivot pin 292, as best seen in FIG. 20.Abutment 295 formed onhandle extension 294, as best seen in FIG. 18, acts as a stop to rearward travel oftrigger assembly 234.

The end ofhook rod 284 is formed into a T-shapedextension 296 which is retained inspring 298 mounted to the lower end of handle extension 294 (FIGS. 18 and 20).Spring 298 biases hook 208 forwardly, as best seen in FIG. 17.

Whentrigger 220 is drawn rearward, as best seen in F IGS. 16 and 18, to cause thejaws 228 and 258 to grip thebleeder 78 to pull it within the end ofcartridge 200, the rearwardupper edge 300 oftrigger 220 pushes the T-shapedportion 296 ofhook rod 280 rearward, causing the hook end to recess within therecess 214 incartridge bar 210, as shown in FIG. 18. Simultaneously,pin 206 has traversed the helical portion ofcam track 244 to rotate cam 202 (and thus helix 276) one revolution releasing the forwardmost preformedligature 218, as shown in FIG. 18.

Hook trigger 212 is integrally formed onhook guide 290.Hook guide 290 has anopening 306 in the end therein for guidinghook 208 in its forward and rearward motion into and out of engagement with therecess 214 inpin 210 ofcartridge 200.Hook guide 290 is biased clockwise about is mountingpivot 292 by means ofleaf spring 308 mounted tobarrel assembly 264 atyoke 310. Whentrigger 212 is pulled,hook 208 andhook guide 290 move together counterclockwise about mountingpin 292 to tighten theligature 218 about thebleeder 78.Hook 208 pulls thelower loop 216 andpin 210 holds theclosure portion 312, as best seen in FIG. 21. As previously stated. whentrigger 220 is released, the ligature may be disengaged from the gun without cutting, as illustrated in FIG. 22.

Now referring to FIG. 23, in a modified suture gun according to the invention thehook acutating trigger 316 is mounted forward of thejaws actuating trigger 220 and is slidably engaged abouthook guide bar 318 by means ofyokes 320 and 322 integral therewith.Guide bar 318 is biased clockwise about pivot 292 (FIG. 16) by means ofleaf spring 324 mounted to modifiedyoke 326 integral withbarrel assembly 264.Trigger 316 is normally biased forward bytrigger 220 pushing againststop 328 mounted ontrigger 316.Trigger 316 is pulled aftertrigger 220 has already been pulled, as previously described.Trigger 316 slides until astop abutment 328 contacts trigger 220.Guide bar 318 is drawn counterclockwise aboutpivot 292 through the spring action ofpin 325.Guide bar 318 bringshook rod 284 along with it since the hook bar is held withinyoke 330. This modification provides increased leverage on thehook bar 284 through the action of the forwardly mounted slidingtrigger 316.

The ligature gun illustrated in FIGS. 16 through 22 is preferably formed of stainless steel for the reasons stated with reference to the earlier described embodiment of the invention. I

Now referring to FIGS. 24 and 24C, an alternative form of preformedligature 218 according to the invention (also illustrated in FIGS. l7, 18, 21 and 22) comprises an endless loop ofsuture material 400 which may be collagen (gut) or the previously described synthetic material. Two pluralities of ratchet-like ridges 402 and 404 are formed on opposite sides ofloop 400. An enveloping collar-like closure 312 is provided with c'ooperating pawl-like teeth 408 and 410 formed therein so that the collar 406 may be pushed towards theupper loop 412 or theupper loop 412 constricted by pulling on thelower loop 314. Theclosure 312 may have a pair ofslits 412 and 414 formed therein to add to its resilience when traversing theratchet teeth 402 and 404.

It will be apparent that it is absolutely necessary for thepin 210 of thecartridge 200 to engage theclosure portion 312 and hold the same while thehook 208 engages the lower loop 314 (as shown in FIG. 21), since otherwise there would be no force between theloop 400 of suture material andclosure 312. However, it is possible to make a closure which would act exactly like the loop of suture material formed into a double loop with a slipknot therebetween, as illustrated in FIG. 6D. This can be done by forming thecontinuous loop 400 and theclosure 312 as an integral unit and providing only one side of theloop 400 with ratchet teeth which side can then be pulled through theclosure 312 while the closure is held fixed to the other side of thecontinuous loop 400 about the bleeder. Other forms of molded plastic fasteners having integral closures such as now used to affix tags, tie bundles, wires and the like and sold under the Trademark Secure-A-Tie by Dennison Manufacturing Company may also be employed without departing from the scope of the invention.

I have thus provided repeating ligature guns, multi ligature cartridges, and preformed ligatures therefor which may be employed to tie any number of bleeders during an operating procedure merely by changing presterilized cartridges of preformed ligatures.

It will thus be seen that the objects set forth above, among those made apparent from the preceding description, are efficiently attained and since certain changes may be made in the above articles and constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

It is also to be understood that the following claims are intended to cover all of the generic and specific features of the invention herein described, and all statements of the scope of the invention which, as a matter of language, might be said to fall therebetween.

Having described my invention, what I claim as new and desire to secure by letters patent is:

l. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

2. The cartridge defined in claim 1 wherein said ligature carrier has an axial channel extending therethrough.

3. The cartridge defined in claim 2 and an outer barrel in which said cylindrical ligature carrier is mounted for rotation.

4. The cartridge defined inclaim 3 and an elongated pin mounted to said outer barrel spaced from and substantially parallel to the axis of said ligature carrier.

5. The cartridge defined in claim 2 and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier.

6. The cartridge defined in claim 5 further defined in that said pin comprises a hook receiving opening at the forward end thereof.

7. The cartridge defined in claim 2 and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

8. The cartridge defined in claim I and an outer barrel in which said cylindrical ligature carrier is mounted for rotation.

9. The cartridge defined in claim 8 and an elongated pin mounted to said outer barrel spaced from and substantially parallel to the axis of said ligature carrier.

10. The cartridge defined in claim 1 and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier.

11. The cartridge defined inclaim 10 further defined in that said pin comprises a hook receiving opening at the forward end thereof.

12. The cartridge defined in claim 1 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

13. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures, herein said ligature carrier has an axial channel extending therethrough and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier, said pin comprising a hook-receiving opening at the forward end thereof.

14. The cartridge defined in claim 13 and a plurality of preformed ligatures mounted on said cartridge, each of said ligatures comprising suture material formed into a double loop by a medial closure, one of said loops mounted about one turn of said helical track, the other of said loops mounted about said pin whereby the pulling of said loop mounted about said pin will constrict the other loop.

15. The cartridge defined inclaim 14 and an outer barrel in which said ligature carrier is mounted for rotation, the rearward end of said pins being mounted to said outer barrel and the forward end of said pin positioned such that one loop of the ligature may be removed from the ligature carrier without removing the other loop from the pin.

16. The cartridge defined inclaim 14 and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

17. The cartridge defined inclaim 16 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

18. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures, wherein said ligature carrier has an axial channel extending therethrough and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

19. The cartridge defined inclaim 18 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

20. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures, and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier comprising a hook-receiving opening at the forward end thereof.

21. The cartridge defined inclaim 20 and a plurality of preformed ligatures mounted on said cartridge, each of said ligatures comprising suture material formed into a double loop by a medial closure, one of said loops mounted about one twin of said helical track, the other of said loops mounted about said pin whereby the pulling of said loop mounted about said pin will constrict the other loop.

22. The cartridge defined in claim 21 and an outer barrel in which said ligature carrier is mounted for rotation, the rearward end of said pin being mounted to said outer barrel and the forward end of said pin posione revolution for each reciprocation of said cam actuator.

24. The cartridge defined in claim 23 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

UNITED STATES PATENTL OFFICE CERTIFICATE 0F CORRECTION Patent No. 3 841 521 Dated OCtObGI 15 1974 Inventor(s) Robert K. Jarvik It-is certified that error appears in the above-identified patent and that said Letters Patent are hereby correctedvas shown below:

Column 1., line5l, "Pat. No. l,635 602"shou1d be Pat. No.

Column 2,line 4, "and" (3rd occurrence) should'be --an-- Column 2,line 20, arine" should be "further Column 6,line 124, "curbed" should. be -curved-- (Jolumn 6, 1111541, "14 should be 140" I Column 8, line 41, "is" should be to- Column 8,line 48, "22" should be -222- Column l0,line 56, "Secure-A-Tie" should be -Seour-A-Tie- Column 11line 68, "herein" should be --wherein--Column 12, line 61, "twin'f should be -turn-' Si ned and sealed this 31st m of December 1974 SEAL) Attest:

"cCOY II. GIBSON JR. C. MA \SHALL DANE-I Mttestm Cffier Commissioner of Patents FORM po'wsb (0459) v uscoMM-oc suave-ps9 ".5. GOVERMMENT PRINTHG OFFICE: '9" -356'334v

Claims (24)

1. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

2. The cartridge defined in claim 1 wherein said ligature carrier has an axial channel extending therethrough.

3. The cartridge defined in claim 2 and an outer barrel in which said cylindrical ligature carrier is mounted for rotation.

4. The cartridge defined in claim 3 and an elongated pin mounted to said outer barrel spaced from and substantially parallel to the axis of said ligature carrier.

5. The cartridge defined in claim 2 and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier.

6. The cartridge defined in claim 5 further defined in that said pin comprises a hook receiving opening at the forward end thereof.

7. The cartridge defined in claim 2 and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

8. The cartridge defined in claim 1 and an outer barrel in which said cylindrical ligature carrier is mounted for rotation.

9. The cartridge defined in claim 8 and an elongated pin mounted to said outer barrel spaced from and substantially parallel to the axis of said ligature carrier.

10. The cartridge defined in claim 1 and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier.

11. The cartridge defined in claim 10 further defined in that said pin comprises a hook receiving opening at the forward end thereof.

12. The cartridge defined in claim 1 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

13. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures, herein said ligature carrier has an axial channel extending therethrough and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier, said pin comprising a hook-receiving opening at the forward end thereof.

14. The cartridge defined in claim 13 and a plurality of preformed ligatures mounted on said cartridge, each of said ligatures comprising suture material formed into a double loop by a medial closure, one of said loops mounted about one turn of said helical track, The other of said loops mounted about said pin whereby the pulling of said loop mounted about said pin will constrict the other loop.

15. The cartridge defined in claim 14 and an outer barrel in which said ligature carrier is mounted for rotation, the rearward end of said pins being mounted to said outer barrel and the forward end of said pin positioned such that one loop of the ligature may be removed from the ligature carrier without removing the other loop from the pin.

16. The cartridge defined in claim 14 and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

17. The cartridge defined in claim 16 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

18. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures, wherein said ligature carrier has an axial channel extending therethrough and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

19. The cartridge defined in claim 18 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

20. A ligature cartridge for carrying a plurality of preformed ligatures and adapted for insertion and retention in a ligature gun, comprising a cylindrical ligature carrier adapted for rotation about the cylindrical axis thereof when inserted in the ligature gun, said carrier comprising an inwardly depending helical track about its periphery at its forward end for engagement by the ligating loops of a plurality of preformed ligatures, and an elongated pin spaced from and substantially parallel to the axis of said ligature carrier comprising a hook-receiving opening at the forward end thereof.

21. The cartridge defined in claim 20 and a plurality of preformed ligatures mounted on said cartridge, each of said ligatures comprising suture material formed into a double loop by a medial closure, one of said loops mounted about one twin of said helical track, the other of said loops mounted about said pin whereby the pulling of said loop mounted about said pin will constrict the other loop.

22. The cartridge defined in claim 21 and an outer barrel in which said ligature carrier is mounted for rotation, the rearward end of said pin being mounted to said outer barrel and the forward end of said pin positioned such that one loop of the ligature may be removed from the ligature carrier without removing the other loop from the pin.

23. The cartridge defined in claim 21 and a cam adapted for engagement with a reciprocating cam actuator of the ligature gun for rotating said ligature carrier one revolution for each reciprocation of said cam actuator.

24. The cartridge defined in claim 23 wherein said cam and said ligature carrier are formed as an integral unit of the cartridge.

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