CA2060040A1 - Surgical staple and endoscopic stapler - Google Patents
Surgical staple and endoscopic staplerInfo
- Publication number
- CA2060040A1 CA2060040A1 CA002060040A CA2060040A CA2060040A1 CA 2060040 A1 CA2060040 A1 CA 2060040A1 CA 002060040 A CA002060040 A CA 002060040A CA 2060040 A CA2060040 A CA 2060040A CA 2060040 A1 CA2060040 A1 CA 2060040A1
- Authority
- CA
- Canada
- Prior art keywords
- staple
- jaws
- staples
- stapler
- recited
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
Links
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/068—Surgical staplers, e.g. containing multiple staples or clamps
- A61B17/0682—Surgical staplers, e.g. containing multiple staples or clamps for applying U-shaped staples or clamps, e.g. without a forming anvil
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/064—Surgical staples, i.e. penetrating the tissue
- A61B17/0644—Surgical staples, i.e. penetrating the tissue penetrating the tissue, deformable to closed position
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/00234—Surgical instruments, devices or methods, e.g. tourniquets for minimally invasive surgery
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/0057—Implements for plugging an opening in the wall of a hollow or tubular organ, e.g. for sealing a vessel puncture or closing a cardiac septal defect
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/0057—Implements for plugging an opening in the wall of a hollow or tubular organ, e.g. for sealing a vessel puncture or closing a cardiac septal defect
- A61B2017/00646—Type of implements
- A61B2017/00668—Type of implements the implement being a tack or a staple
Abstract
ABSTRACT
An improved surgical staple for use in surgical procedures. The surgical staple has a base portion and two arms extending from the base portion, each arm having a distal end having an inwardly directed bevelled surface. A first bend is formed in each arm such that the distal ends of the arms are curved inwardly toward each other. The staple may be crimped such that the distal ends thereof move toward each other such that the bevelled surfaces are in confronting relation to decrease the probability of the staple being inadvertently extracted.
An improved surgical staple for use in surgical procedures. The surgical staple has a base portion and two arms extending from the base portion, each arm having a distal end having an inwardly directed bevelled surface. A first bend is formed in each arm such that the distal ends of the arms are curved inwardly toward each other. The staple may be crimped such that the distal ends thereof move toward each other such that the bevelled surfaces are in confronting relation to decrease the probability of the staple being inadvertently extracted.
Description
Case No.: ~ELEZ-OOlA Pat. Appln.
IMPROVED S~RGICAL STAPLE AND E~DOSCOPIC STAPLER
IY~ 9~ 9 ~
The present inventio~ relates generally to ~edical equipment and more particularly ~o an improved ~urgical ~taple whi~h rssists inad~er~ent pullout and to a device which may be inserted into the ~ody through a 6mall incision and ~ubsequently u~ilized ~o lnsert the i~proved surgical staple into anatomioal body portions and/or therapeutic devices within the body.
.Back~ro~nd of ~he Inve~$i~a The development of modern endoscopic instrumentation has significantly affected the manner in which many surgical procedures are performedr Indeed, many yrocedures which have traditionally required large surgical incisions (e.g. laparotomy) may now be performed endoscopically, by inserting an endoscopic viewing device (e.g. a laparoscope, arthroscope, bronchoscope, etc.) along with various ;surgical instruments through natural body op nings or small incisions.
~ he development of modern endoscopic ~urgical procedures has ena~led surgeons to per~orm ~ajor operativ ~ 2~5 procedures at relatively low risk, without the .need for :~ deep ~nuscle relaxation and with ~i~imal blood loss and minimal post-operative dis~om~ort.
~ In particular, recent advancements i~ laparoscopic :~:techn~logy have enabled surgeons to perform various intra-abdominal surgical procedures through o~e or more rela~ive1y small ~e.g. 1 ~m) laparoscopy incisions rather ;than throu~h the traditional, relatively large (e.~. 5-20 cm) laparotomy incision.
In acGordance with standard laparo6copic technigue, ~n inflation needle is initially inserted into the peritoneum and carbon dioxide is passed therein to ~reate a dis~ended pneumoperitoneum. Thereafter, a small periu~bilical incision is formed and a primary portal or trocar is inserted through such periu~bilical i~cision into the distended peritoneum. ~he laparo~cope i8 then in~erted into the peritoneum through the primary umbilical trocar.
One or more secondary trocars or acce~ory portals ~ay al60 be inserted through one or ~ore ~econdary lncisions or puncture wounds formed i~ the abdominal ~all. Such secondary trocar6 or accessory portal~ are ~e~esally used ~or passage of ~lunt orceps, cannulas and other instruments into the abdomen.
After such instruments have been inserted through the accessory portals, the i~stru~ents are used to carry out the de~ired surgical exci~ion and~or manipulation of organs and tissues within the abdomen while the surgeon ~iews the operative site through the previously inserted laparoscope.
Any surgicaliy excised tissue or other material which is to be removed during the ~urgical procedure ~ust then be extricated from the ~ody, preferably by extraction throug~
one of the previously made laparoscopy portal i~ci~ions.
For example, a common hernia repair may be 2ffected endoseopically by suturing a fab~ic mesh i~ place ovex the wound to provide support to the weakened area duri~g the healing process; ~his is typically accompli6hed by usi~y forceps or other surgical tool6 to ~anipulate a threaded needle through a trocar in order to for~ the sutures. ~he suturing process oommonly iB simultaneously observed through a~ endoscope inserted through ~ ~eparate trocar.
: To accompli~h ~uturing, the threaded ne2dls must be passed through the trocar and into the in~lated abdome~ or pneumoperitoneum; the sutures must be ~ormed; a knot ~u~t be tied and the thread cut when suturing is complete; a~d finally the needle and remaining thread must be extracted through the trocar.
Although laparoscopic procedures have evolved to the 2~
point when internal incisions and the like may be repaired by manipulating a threaded needle endoscopically to form ~utures, the ultl~ate sue~es~ and feasibility of many such fiurgical procedures is ~ependent upon the ability of the ~urgeon to perform the procedure in a limited amount of time. Manual endoscopic suturing is a time-consuming task requiring a great deal of ~ill.
Similar problems ~xist in suturing anatomical body portions and/or therapeutic de~ices, e.g. a fabric mesh, in other contemporary Eurgical procedures, including those which are performed through ~atural ~ody openings such as the oral cavity, urethra, vagina, restum, etc.
~ aparoscopy has, for some time, been used in the treatment of gynecologi~ diseases. More re~ently, and largely due to the development of highly efficient laser cutting and coagulation devices, laparoscopy has shown promise as a modality for performing various other general surgical procedures which had herstofore been performed through relatively large (e.g. 5-40 cm) laparotomy incisions. Indeed, requently performed intra-abdominal 6urgical procedures such as cholecystectomy and appendectomy may now be approached with the laparoscope thxough a relatively small (e.g. 1 cm) abdominal puncture.
The feasibility of performing such operations i5, however, in part dependent upon the ability of the surgeon to close wounds, suture therapeutic devices ln place, and 6uture anatomical body portions in place.
Any endoscopi~ suturing or stapling ~ust take place through a troc r inserted into one of the pr~viously made laparoscopy portal incisions. Thus contemporary ~urgical -staplers can~ot be su~stituted for suturing sin~e they cannot be inserted through the opening of a trocar.
:~ Prior ar~ surgical ~taples generally suffer fxom the deficiency that, after stapling, th~y are undesirably prone to being pulled out of the anatomical body portion and/or therapeutic device into which they have been disposed.
Su~h prior art surgi~al s~aples have straight arms which are not crimped toward each other. ~hus, ~uch prior art ~taples lack a ~echanism to pre~ent their moving away from and out of engagement with the ~at~mical body porti~n a~d/or therapeutic device ~nto wh~ch they have bee~
inserted. Movement of the stapled anat~ al ~ody portions and/or therapeutic devices, as well a6 tens$on placed thereup~n, may cause 6uch prior art ~taples to be pulled out.
In view of the problem~ assooiated with e~doscopic ~uturing and similar surgical procedures, i.e. ~tapling, there exists in the art the need for an improved staple which is not ~ubstantially subject to bei~g i~aavertently pulled out and for an instrument which may be passed into the pneumoperitoneum or the like t~rough a 6tandard (e.g.
l cm) laparo6copy incision to effect stapling o~ anatomical body portions and/or therapeuti~ devices.
~umma~ of-~h~-In~çntiQn The present invention specifically addresse~ and alleviates the aboYe mentioned deficiencies ~s ociated in the prior rt. More particularly, the present inve~tion comprises an improved 6taple and an endo~copic ~tapler.
: The staple has asms which are curved toward each other such that the ctaplP may be crimped BO a~ to cau~e the arms to ~ov~ toward each other and thereby l~c~ the ~taple i~to place. ~his crimping action sub5tantially mitigate~ the likelihood o~ the ætaple being inadYerte~tly pulled out or extracted. ~he staple also has an abutting bend ~orm~d ~: 30 ~uch that co~pression or ~guee2ing together o~ the ~rms of leading or nested staples dispo6ed Eer~ally within an endoscopic ~tapler is prevented and the occurren~es of jamming are reduced. ~he abutment or abutting bend also prevents the improved staple from slippins out of the ~aws of the endos~opic stapler.
..
2~$~
The endoscopic stapler for effecting use of the improved urgical ~taple generally omprise~ an elongate tubular section which ~ay ~e inserted through a standard Se.g. 1 cm) laparoscopy incision i~to a human body; a handle portion having a trigger for affecting the 6tapling process; a pair of extensible jaws disposed at the distal end of the elongate tube for positioning and crimping a ~taple in place; a feed me~hanism for advancing a ~eries of staples to the j3WS; and a means for selectively adjusting the amount of crimp imparted to the ~taple.
~ he improved ~taple and endoscopic ~tapler of the i present invention permit a ~urgeon to rapidly sec~re anatomical body portions and/or therapeutic devices in place within the human body without requiring an i~cision in excess of appreximately 1 centi~eter.
~rief ~es~~tiQ~_Q~ Q_~Y~i~
Figure 1 i~ a perspective view of the endoscopic ~ stapler o~ the present invention positioned to be inserted ; through a trocar and i~to a human abdomen;
~ Figure 2 is an enlar~ed perspective view of the di tal : end of the endoscopic stapler of Figure 1 in the process of ctapling a wound closed;
Fi~ure 3 is an enlarged ~ross seetional viPw of ~he ~ handle of the endoscopic stapler of Figure 1;
; 25 Figure 4 i5 an enlarged perspective view of the distal e~d of the ando~copic stapler o~ Figu~e 1;
Figure 5 is a~ exploded perspective view of the di~tal end of the endoscopic 5tapler of Figure 4;
: Figure 6 i~ a sectional perspeetiv~ ~iew of the :~ 30 tension ~ar, t~e distal end of which i6 show~ i~ Figure 5;
Figure 7 is a perspe~tive view of the extensible j~ws ~ of Figure 5 having the right jaw drawn i~ phantom and ;~ showing the u~dersides thereof;
Figure 8 is an enlarged sectional perspec~ive ~iew o the lower half of the distal end of the elongate tu~e of the endoscopic s~ plex of the present invention showing the extensible jaws partially extended as during the insertion of a staple and showing a nested ~eries of ~aples disposed therein;
Figure 9 is a top plan view of the lower half of ~h~
distal end portion of Figure 8 showing the exten6ible ~aws dispo~ed in their retracted position;
Figure 10 is a cros sectional side view o~ the distal end portion of Figure 9, additionally showing the upper half thereof;
Figure 1l i5 a top plan view of the lower hal~ of the distal end portion of ~he end~copic ~tapler of Figure 8 showing the extensible jaw6 disposed in their extended position;
Figure 12 is a cross 6ectional Eide view o~ the endoscopic stapler of Figure 11, additionally howing the upper half thereof, with the exten~ible jaws disposed in .their extende~ poe:ition; and Figure 13 is an enlarged top plan view of the lower half of the distal end of the endoscopic ~tapler of Figure 11 illustrating the crimping action thereo~, an uncrimped ~taple being ~hown in phantom lines ~nd a ~rimped staple being shown in solid lines.
~ ile~ De~cri~tion af ~ IsY~ati~
~he detailed description set forth below in connection with the appende~ drawings is intended a~ a description of the presently preferred em~odim~nt of the inventio~, and is not intended to represent the only form in which the present inYention ~ay be con~tru~ted or utllized. ~he description ~et~ forth the functions and ~egue~c~ of steps for construcking and operating the in~ention i~ connection with the illustrated embodiments. It is to be under~tood, however, that the same or equivalent functions and sequences may be accomplished by di~ferent embodiments that are also intended to be encompassed within the spirit a~d 2~`~' scope of the invention.
The present invention ~ay be used in any type of endoscopic or other surglcal pro~edure wherein it is dosired to taple anatomical ~ody portions and/ox S therapeutic devices in pla e through a relatively 6mall ~pening. Because the present invention is particularly applicable to intra-abdominal laparoscopic surgical procedures, the invention will be describea herein with particular reference thereto. ~he making of 6uch particular reference to laparos~o~ic surgical procedurçs shall not, however, constitute a limitation on the overall - description and intended application of the present invention. In fact, in addition to intra-abdominal laparoscopic proeedures, the present invention may be usable in ~any other types of procedures.
The improved surgical ~taple of the pre~en~ invention is illustrated in Figures, 4, 5, and 8 - 13. The end~scopie stapler of the present invention is illustr~ted in Figures 1 through 13.
Refexring now to Fi~ures 4 - 13 the improved staple of the present i~vention comprises a ~trai~ht elongate base or rear portion 106 and proximal bends lOB attaching first 112 and ~e~ond 114 arm~ t~ the base 106. A~ a~utment bend 102 is ~ormed upon each arm 112 and 114 ~uch that an out~oard bump or bulge is f~rmed thereby in the outboa~d urface of ~ach ar~ 112 and 11~. A distal bend 110 is ~lso formçd in sach arm 112 and 114 su~h that distal ends os tips lD4 bend toward each other. ~he staple 100 is preferably ~abricated of stainless ~teel although those skilled in the art will recognize that other biologioally compatible materials having similar oharacteristics are likewise suitable.
The improved 5taple 100 ~f the present invention provides a staple which may be used in an endoscopic stapler and which is substantially less subject to being inadvertently pulled out than prior art staples.
-B~
The staple 100 is Qized to be received within an endoscopic stapler. The base 106 generally has a length of - less than 1 cm, with a leng~h of 4 to 6 mm being preferred.
Abutment bends 102 arz proslided to prevent subsequent ~taples 100 from "riding up" on preceding st~pleR 100 as they are urged ~orward in a Ilested 6erie~ tas be~t shown in Figures B, 9, and 11~. Without: the ~butment ber~d su~seguent 6tapl~s 100 may tend o urge the arms 112 and 114 of pre~eding 6taples 100 together, i.e. as when they are crimped, as the staples 100 are urged towasd the distal end of the endoscopic stapler, thereby distortisly the ~hape - of the preceding staples 100 and potentially jamming the endoscopic stapler. The abutment be~d 102 maintains the positioni~g of the tips 104 of subsequent ~aples 100 proximate the bases 106 of preceding ~taples 100 such that the arms 112 and 114 of the subseguent staples 100 do not tend to ride up along the arms 112 and 114 of the preceding staples 100. Thus, performance and reliability of the `: impro~ed staple 100 is enhanced.
The abutment bends 102 also prevent the ~taples 100 : ~rom inadvertently slippin~ out of the ~aws 62 and 64 of an endoscopic tapler. ~hi is neces~ary ~ecaus~ of the ~; ,generally ~" shaped configuration of the ~taples 100 which ~; would otherwise be difficult to g~asp fro~ the sides. As can ~e seen in Figure 8, the abutment ~ends 102 contact the jaw. 62 and 64 ~nd prevent t~e ~taple 100 fr~m ~oving distally prior to being ~rimped.
~he aistal bend 110 formed in each arm 112 a~d 114 : ~orms a preferential ~ending site which causes the tlps 104 to curve toward each other uch that crimping of the arms 112 a~d 114 brings thP tips 104 clo~er together. Thus, crimping the improved staple 100 of the prese~t in~ention ~ firmly ecure~ the staple 100 in place Guch that ths :~ probability o~ the 6taple 100 being inadvertently pulled out of the anatomical body portion or therapeutic de~ice ~z~
into which it i5 inserted is substantially reduced.
~ he distal ends or ~ips 104 of each arm 112 and 114 may be bPveled, cu~ at an angle, or sharpened to improve the ability of the improved staple 100 to penetrate S anatomical ~ody portions and/or therapeutic devices.
As the staples 100 are crimped into place they t~nd to draw the two ~ides of a wound together, thu~ closing the wound in a desirable manner. Additionally, ~rimping causes the staple 100 to pull layered structures together. For example, when a fabric mesh is being stapled 100 ~o an anatomical body portion, ~tapling causes the staple 100 to , pull the fabric mesh into tighter con~act with ~he anatomical body portion as the staple 100 is crimped.
Thus, not only does the improved surgical staple 100 of the present invention reduce the probability of the staple 100 being inadvertently pulled out, but also tends to close wounds and improve the contact of therapeutic devices with anatomical body portions in a desirable manner.
Referring now to Figure 1, the endoscopic stapler for dispensing thQ impro~ed ~taples 100 of the present inYention is comprised generally of an elongate tubular section 18, sized to be inserted through a trocar 12 into a body 14; and a handle 20 having a triggçr 22 pivotally attached thereto, for effecting actuati~n of the stapler mechanism. ~he handle 20 i6 further comprised of firct 24 and second 26 body halves.
Re~erring now to Figure 2, the distal portion 81 ~f he tubular member 18 of t~e endos~opic stapler 10 is illustrated in the proces~ of inserti~g and crimping staples into a wound 79 of an anatomical body portion 16.
. As can be seen, a series or array of ~taples 100 are inserted such that they close the wound 79 and ho}d the two sides of the wound 79 in position for healing. As mentioned above, the crimping process tends to draw the sides of the wound 79 together such that de~irable contact is maintained and healing is facilitated.
Referring now to Figure 3, the actuation ~echanism disposed within the handle 20 i ~ho~n. The actuation mechanism compri6es ~hose oomponents which fac~lltate contrQ1 of the stapling proce~6, i.e. the trig~er and linkage mechanisms. ~he trigger 22 ha~ a finger ~top 30 to improve the grip thereof and thus provide bettex control.
The trigger 22 pivots about ~rigger pivot post ~6 6uch that pulling the trigger 22 causes i~tegral tr~g~er arm 48 to move forward agai~st the biasing of return ~pring 32.
Return spring 32 is attached t~ the trigger arm 48 at - aperture 52 and is attached to the second handle body half 26 by the ~pring post 34. ~he return ~pring 32 thus urges the trigger 22 into an extended or non-actuated position.
A push rod attachment blo~k 42 has a po~t 44 formed thereon which extends through ~ lot 50 formed in the trigger arm 48 such that ~orward motion of th2 trisger arm : 48 causes similar forward motion of the push rod attachment ~:~ block 42. The slot 50 permits the push rod attaehment ~ 20 block 42 to remain in substantially t~e same horizontal :~ plane as it travels forward. Fasteners or screws 4n atta~h the push rod attach~ent block 42 to a pu~h rod 38 which extends su~stantially the length o~ the t~bular me~er 18.
A trigger stop screw 36 extends ~om the forward 2~ portion of the handle ~uch that ~t lim~t~ the rearward travel of the trigger 22. A ~crewdriver ~lot 54 ~or~ed in the rearmost portion of the trigger stop 60rew 36 permits adjust~ent thereof throu~h aperture 56 formed in the handle ~ 2~.
: 30 The tubular member 18 i oompri~ed o~ upper 58, a~d lower 60 housings. Fasteners or s5rewB 2a attaeh the ~irst ~ 24 and ~econd 26 handle body halve6 to~ether.
:~ Referring now to Figure 4, an enlar~ed Yiew of the :~ distal portion 81 of the tubular member 18 is shown. Right 62 and left 64 jaw~ extend from an opening 66 formed in the lower tubular member housing 60 a~d hold an improved staple 100 of the present i~vention such tha~ it may be inserted and crimped into place. A lap 85 extends downward from the upper housind 58. The a~utment bends 102 formed in the ~taple 100 prevent it from Eliding ~orward, out of the jaws 62 and 64. A crimped staple lOOA i~ shown in phantom.
Referring now to Figure 5, an exploded view of the distal portion 81 of the tubular member 18 i~ shown. Upper 58 a~d lower 60 housings contain a~d support the ~ech~nisms for feeding, inserting and crimping the improved surgical ~taples 100. ~he upper housing 58 has an end wall 68 formed at the distal most portion ther~of. The lower housing 60 has an opening 66 ~ormed in the distal end thereof and continuous with a channel 43 formed therethrough and also has an upper surface 51. A jaw closing cam 27 exte~ds upward from the lower surface 41 of the channel 43 proximate the opening 66. Push rod arm rece6ses 35 having rear surfaces 37 and forward ~urfaces 39 are formed in the lower housing 60. A track 45 having a lower surface 49 i ~ormed substantially alons channel 43.
~ ~aw carrier 31 is formed upon the distal p~rtion 98 of the push rod 38 such that the jaw aarrier 31 extends toward the opening 66 of the lower housing 60 as the push rod 38 moves forward when ths trigger 22 is actuated or depressed. The jaw carrier 31 comprises a jaw closing cam ~lot 29 formed in the distal ~ost e~d thereof, pi~ot post apertures 25 formed on either sid~ of th~ jaw clo~ing cam ~lot 29, and a ~aw reoess 23 disposed proximate the pivot post apertures 25 an~ configured to receive a portion of the jaws 62 and 64. A jaw openi~g cam r~eess 21 is - ~onfigured to receive a jaw opening cam 94 which i~ spr~ng biased forward ~y coil ~pring 96. Cam spring recess 19 is disposed ~ the jaw opening cam recess 21 and receives the coil spring 96. Right 11 and le~t 13 pu h rod arms extend upward ~rom the sides o~ he jaw carrier 31 and ~ave 2~
camming surfaces 15 and upper surface~ 17 formed upon the forward upper portio~s thereof. Both push rod arms 11 and 13 have rear ~urfaces 33 (better hown in Figures 9 and 10) which will contact the rear sur~ace 37 of the pu~h rod arm recess 35 when the push rod 38 is di posed in its rearmost position as when the trigger 22 ~ ~ot depre6sed or actuated.
With particular reference t~ Figures 5 and 7, the ~aws 62 and 64 have outboard surfaces 88, opening camming ~urfaces 92 (better 6hown ln Figures 11 and 13), a staple platform 80, ~ta~le support grooves 84, closure camming surfaces 90 and pivot post apertures formed thereo~. Jaw pivot posts 82 are received by thQ jaw pivot post apertures 86 and the jaw carrier pivot po t apertures 25 such that ~ 15 the jaws 62 and 64 may pivot relative to the jaw carrier : 31.
~ he spring biased jaw opening oam 94 has an abutment 6urface 77 configured to abut the opening ~amming ~urfa~e ;~ 92 of the jaws 62 and 64 such that they are cammed toward the open or ~on-crimying position thereof. ~he outboard surfaces 88 of the jaws 62 and 64 abut the channel 43 in the lower housing 60 when the jaw carrier 31 i8 ~ot . extended. Th~ closurQ camming surfaces 90 of the jaws 62 and 64 abut the jaw closi~ oam 27 ~uch that the jaw~ are urged intv a closed or crimped position when th jaw carrier 31 i~ extended as when the trigger 22 is depressed or actuzted. Staple platforms 80 ~ c~nfigured to receive ~ and support an impro~ed ~t~ple 100 of the present :~ invention. The staple ~upport grooves 84 ~apture a portion of the ~ms 112 and 114 ko preve~t ~nadvert~nt release of the staple from the jaws 62 a~d 64.
; With particular reference to Figures 5, 8, 9 a~d 11 a staple tray 72 is sized to be dispo~ed within the track 45 in the lower housi~g 60 and hss a channel 7B which is ~ized and configured to receive a ~eries of nested i~proved 2~
surgical staples 100 of ~he present invention such that the staples 100 may be fed to jaws 62 and 64. Right 74 and le~t 76 guide members guide the series of ~taples 100 and maintain their positions as they are fed ~oward the jaws 62 and 64.
A staple pressure pla~e S5 has camming surfaces 63 configured to contact the camming ~ufaca 15 of the push rod arms 11 and 13 such that the staple pre~sure plate 55 will be cammed upwaxd when the push rod 38 is dispo ed in its forward most position as when the trigger 22 is depressed or actuated. A recess 59 formed in th~ stapl~
pressure plate 55 receives a coil cpring 57 whi~h biases the staple pressure plate 55 downward.
With particular reference to Figures 5 and 6, a lS tension bar 70 has a forward surface 69 and is confi~ured to be received by the staple tray channel 78 ~uch ~hat when the tension bar 70 travels forward a series of nested staples 100 disposed therein are urged forward by the forward ~urface 69.
A rod 71 (shown in Figure 6) i8 attached to the rear portion of the tension bar 70. ~n attachment a~erture 75 provides access to a fastener or ~crew (~ot ~hown) disposed :~ therein for attaching the r~d 71 to the tension bar 70. A
coil spring 73 dispo~ed abou~ the rod 71 urges the te~sio~
bar 70 forward such that it will cause a series of nested staples 100 to move forward toward the ~aw~ 62 and 64.
The rod 71 extends through ths rear o~ the han~l~ 20 ~uch that the proximal end (not 6hown) there~f may b~
grasped ~nd retracted against the urging of ooil spring 73 30 .uch that ~taples 100 may be loaded through the opening 66 into the 6taple tray 72 as di~cussed in further detail below. The proximal end of th~ rod 71 may be knurled or have a knob formed thereon to facilltate grasping.
Having thus described the structure of the improved 35 staple 100 and endoscopic stapler 10 o~ the present 2~
invention, the operation thereof will be discu6sed in detail with reference to Figure 8 through 13 below.
Nith particular re~erence to Pigures 8, 11 and 12 the low~r half o4 the distal portion 81 of the tubular ~ember 18 is shown having the jaws partially ~xtended ~d showing a series of ne ted staples 100 disposed within the 6taple tray 72 ~uch that they ~ay be ~ed forward or digitally toward ths extensible iaws 62 and 64. A ~taple 100 is shown di~posed within the jaws 62 and 64. The ~aw carrier 31 has moved 6ufficiently forward for the clo6ure ~amming surface 90 of the jaws 62 and 64 to contact the jaw closing cam 27 6uch that further forward motion will cause the jaw closing cam 27 to cam into a closed ox crimpins pos1~ion.
When the distal end 81 o4 the tubular ~ember 1B is placed in contact with the anatomical body portion or therapeutic device to be stapled and the trigger 22 is partially deprecsed or actuated, the 6taple 100 i forced into the anatomical ~ody portion or therapeutic device as .~the ~aws 62 and 64 extend to the point illustrat~d in :~20 Figure 8. ~urther, depression or actuatio~ of the trig~er 22 causes the ~ws to ~ove further forward such that the jaw closing cam 27 cam. against the clo~ure cammi~g sur~ace gO o~ the jaws 62 and 64, ther ~y ~ffecting crimpi~g of the staple 100.
In Figure 8 a ne5t~d series of improved ~urgical staples 100 of the present i~vention are ~hown (in pha~tom) dispo6ed within the staple tray 72. ~he ~taples 100 ~re nested ~i~ce a portion o~ a previou6 (~orward) ~tapl~ i~
dispos~d within or between the arms of a 0ubseguent ~resr~
30 ~taple 100.
With particular reference to F~gure~ 9 an~ 10, the distal end 81 of the tubular ~e~ber lB is shown with the extensible jaws 62 and 64 ~ully retracted into the channel 43 as they would be prior to depressing or a~uati~g the 35 trigger 22. In this configuration, the tips 104 of the forward most staple 100 disposed within the staple tray 72 abut the staple abutment surface 83 of the ~taple pressure plate 55 such that further forward movement of the series of nested staples 100 under the urging of the tension bar 70 Ishown in Figures 5 and 6) does ~ot occur.
Depression or actuation of the trigger 22 will cause the push rod 38 to move forward thus causing the staple 100 disposed within the jaws 62 and 64, to extend ~rom the opening 66 formed in the lower tu~ular ~ember housing.
The spring biased jaw openi~g cam 94 (best shown in Figure 5) is biased towards and contacts the opening . camming surfaces 92 of the jaws 62 and 64. Thus, the spring biased jaw opening cam 94 would maintain ~he opened or spread apart positioning of the jaw 62 and 64 even if no staple 100 were presently disposed therein. ~his as~ures that the extendible jaws 62 and 64 will be positioned to accept the next or forward most staple 100 from the s~aple tray 72 after the 6taple 100 presently disp~sed within the extensible jaws 62 and 64 is dispensed.
~he camming surfaces 15 of the arms 11 and 13 do not contact the camming surface 63 ~f the staple pressur~ plate 55 (as best shown in Figure 10). Thus, the staple pressure plate 55 is free to travel downward under the urging of spring 57 such that it contact~ the upper surface of staple 100 disposed within the extensible jaws 62 and 64.
With particul~r xefere~ce to Figures 11 and 12, the distal ~d Bl of the tubular member 1R is show~ with the extensible jaws 62 and 64 partially extended from the channel 43 as they would be after partially depressing or a~tuating the trigger 22. In thi5 configuration the ~taple pressure plate 55 has been cammed upward by the push rod arms 11 and 13. The staples 100 disposed within the ~taple tray 72 can move distally under the urging of spring 73 until the distal most staple 100 abut lip 85. Thus, the distal most staple 100 from the ~taple tray 72 may be urged downward into the ~xtensible ~aw~ 62 and 64 when the ~aws 62 and 64 retract.
$he closing camming surfaces 90 of the extensible jaws 62 and 64 has just contact~d the ~w closing cam 27 in F~gures 11 and 12. Further depre~sio~ or actuation of the trigger 22 would thus cause elosing or cri~ping of the extensible jaws wherein the tips 104 of the ~taple 100 would be forced toward each other a~ the ~xtensible ~aws 62 and 64 move i~to their fully exte~hed po~itio~.
With part~cular reference to Figures 13, the crimping action of the jaws 62 and 64 i8 ~epicted. For~ard ~ovement of the jaw carrier 31 forward of th position illustrated in Figures 8, 11 and 12 causes the closure camming surface 90 of the jaws 62 and 64 to abut and cam against the ~aw cloRing cam 27 such that the tips 104 of a ~taple 100 disposed within the jaws 62 ~nd 64 ~ove toward each other from the position shown in pha~tom 100~ to the position shown in olid lines 100.
The camming action causes the jaws 62 and 64 to rotate :~ 20 against the ur~ing of ~pring bia~ed jaw opening oam 94, thereby forcing the jaw opening cam 94 backwards ~lightly against the urging of spring 96. The ~aw opening ca~ 94 will urgs the jaws 62 and 64 into an open position when the jaws retract into the tubular member 18 as the trigger 22 is released.
~ he amount of crimping action applied to the stapl~
100 by the ~aws 62 and 64 is detsrmined by the positioning of the trigger ~top ~crew 54 (~hown $n Figuxe 3) ~hich limiks the backward travel o~ ths trigg~r 22 a~d thereby likewise limits the ~orward travel Q the push ~od 38. The ~; trigger 6top ~crew 36 ca~ be adjusted by placing the blade of a ~lat tip ~erewdriver within the ~lot 54 ~ormed therei~
and rotating. Aperture 56 ls pro~idcd in the rear of the handle 20 to provide a~oess to the 610t 54 of the trigger stop screw 36. Thus, adjustment of the trigger 8top screw Z~`~ Q ~ ~
36 determines ~he amount which jaws 62 and 64 rotate as they are cammed by jaw closing cam 27.
With the jaws 62 and 64 in their ~xtend~d position, the camming ~urface lS of the arms 11 and 13 contact the camming surfaees 63 of the 6tapler precsure plate S~, thus ur~ng the ~taple pressure plate 55 upward. Relea ing the trigger 22 causes the extensible jaws 62 find 64 to rat~act within the tubular member 18 ~o the position Rhown in Figures 9 and 10 such that the forward most ~taple disposed within the staple tray 72 may be loaded i~to the jaws 62 and 64. Rearward movement o~ the jaw carrier 31 causes the camming ~urfaces 15 of the arms 11 and 13 to cease camming the camming surface 63 of the staple pressure plate 5~ such that the staple plate 55 is permitted to be uxged downward by coil spring 57.
With the jaws 62 and 64 in their extended position the forward most staple 100 in the staple tsay 72 is free to travel forward such it will be positioned to be rece~ved by the jaws 62 a~d 64 when the trigger 22 is released and the ~aws 62 and 64 retract. Thus, whan the ~aws 62 and 64 retract, the pressure plate 55 is permitted to urge the forward ~ost 6taple into position ~uch that ~t i8 ~æ~eived by th~ jaws 62 and 64.
- The endoscopic staples of the present in~ention may be ~abricated primarily of plastic and pre-loaded with staples a~ the time of ~anufacture ~uch that it can be 601d as a disposable ~tem. Thus, there would be no need to refill the endoscopic ~tapler with ~taple~. Alternatively, the endoscopi~ stapler could be fabricated of a ~ore durable material, l.e. ~tainless steel, ~nd disas~em~led, -autoclaved, re-loade~ with staples, and reassembled a~
xeguired. Additio~ally, other ~orms o~ loadi~g the endoscopic tapler are contemplated.
It is understood that the exemplary improved surgical ~taple and the endoscopic stapler described herein and shown in the drawi~gs represent~ o~ly presently preferred embodiments of the invention. Indeed, various modifications and additions may be made to such embodiments without departing from ~he pirit and 8~0pe of the i~entio~. For example, the i~proved surgical staple ~eed ~ot be ~o~figured preci~ely a~ show~, ~ut rather ~ay utilize a variety of shape~ that permit ~rimpin~ and facilitate use with an endoscopic ~tapler. $hu~, these and other modiflcat~.ons and additlo~ ~ay be obviou to those ~killed in the art and may be i~plementad to ~dapt the present lnvention for use i~ a ~ariety of different : applications.
Also, a ~ariety o ~echa~ismQ are co~te~plated for ef ecting movement of the pu~h rod 38. ~hu~ thQ present invention need not be limited to the trigger and linkage meohaniems depioted.
~ ' :;
IMPROVED S~RGICAL STAPLE AND E~DOSCOPIC STAPLER
IY~ 9~ 9 ~
The present inventio~ relates generally to ~edical equipment and more particularly ~o an improved ~urgical ~taple whi~h rssists inad~er~ent pullout and to a device which may be inserted into the ~ody through a 6mall incision and ~ubsequently u~ilized ~o lnsert the i~proved surgical staple into anatomioal body portions and/or therapeutic devices within the body.
.Back~ro~nd of ~he Inve~$i~a The development of modern endoscopic instrumentation has significantly affected the manner in which many surgical procedures are performedr Indeed, many yrocedures which have traditionally required large surgical incisions (e.g. laparotomy) may now be performed endoscopically, by inserting an endoscopic viewing device (e.g. a laparoscope, arthroscope, bronchoscope, etc.) along with various ;surgical instruments through natural body op nings or small incisions.
~ he development of modern endoscopic ~urgical procedures has ena~led surgeons to per~orm ~ajor operativ ~ 2~5 procedures at relatively low risk, without the .need for :~ deep ~nuscle relaxation and with ~i~imal blood loss and minimal post-operative dis~om~ort.
~ In particular, recent advancements i~ laparoscopic :~:techn~logy have enabled surgeons to perform various intra-abdominal surgical procedures through o~e or more rela~ive1y small ~e.g. 1 ~m) laparoscopy incisions rather ;than throu~h the traditional, relatively large (e.~. 5-20 cm) laparotomy incision.
In acGordance with standard laparo6copic technigue, ~n inflation needle is initially inserted into the peritoneum and carbon dioxide is passed therein to ~reate a dis~ended pneumoperitoneum. Thereafter, a small periu~bilical incision is formed and a primary portal or trocar is inserted through such periu~bilical i~cision into the distended peritoneum. ~he laparo~cope i8 then in~erted into the peritoneum through the primary umbilical trocar.
One or more secondary trocars or acce~ory portals ~ay al60 be inserted through one or ~ore ~econdary lncisions or puncture wounds formed i~ the abdominal ~all. Such secondary trocar6 or accessory portal~ are ~e~esally used ~or passage of ~lunt orceps, cannulas and other instruments into the abdomen.
After such instruments have been inserted through the accessory portals, the i~stru~ents are used to carry out the de~ired surgical exci~ion and~or manipulation of organs and tissues within the abdomen while the surgeon ~iews the operative site through the previously inserted laparoscope.
Any surgicaliy excised tissue or other material which is to be removed during the ~urgical procedure ~ust then be extricated from the ~ody, preferably by extraction throug~
one of the previously made laparoscopy portal i~ci~ions.
For example, a common hernia repair may be 2ffected endoseopically by suturing a fab~ic mesh i~ place ovex the wound to provide support to the weakened area duri~g the healing process; ~his is typically accompli6hed by usi~y forceps or other surgical tool6 to ~anipulate a threaded needle through a trocar in order to for~ the sutures. ~he suturing process oommonly iB simultaneously observed through a~ endoscope inserted through ~ ~eparate trocar.
: To accompli~h ~uturing, the threaded ne2dls must be passed through the trocar and into the in~lated abdome~ or pneumoperitoneum; the sutures must be ~ormed; a knot ~u~t be tied and the thread cut when suturing is complete; a~d finally the needle and remaining thread must be extracted through the trocar.
Although laparoscopic procedures have evolved to the 2~
point when internal incisions and the like may be repaired by manipulating a threaded needle endoscopically to form ~utures, the ultl~ate sue~es~ and feasibility of many such fiurgical procedures is ~ependent upon the ability of the ~urgeon to perform the procedure in a limited amount of time. Manual endoscopic suturing is a time-consuming task requiring a great deal of ~ill.
Similar problems ~xist in suturing anatomical body portions and/or therapeutic de~ices, e.g. a fabric mesh, in other contemporary Eurgical procedures, including those which are performed through ~atural ~ody openings such as the oral cavity, urethra, vagina, restum, etc.
~ aparoscopy has, for some time, been used in the treatment of gynecologi~ diseases. More re~ently, and largely due to the development of highly efficient laser cutting and coagulation devices, laparoscopy has shown promise as a modality for performing various other general surgical procedures which had herstofore been performed through relatively large (e.g. 5-40 cm) laparotomy incisions. Indeed, requently performed intra-abdominal 6urgical procedures such as cholecystectomy and appendectomy may now be approached with the laparoscope thxough a relatively small (e.g. 1 cm) abdominal puncture.
The feasibility of performing such operations i5, however, in part dependent upon the ability of the surgeon to close wounds, suture therapeutic devices ln place, and 6uture anatomical body portions in place.
Any endoscopi~ suturing or stapling ~ust take place through a troc r inserted into one of the pr~viously made laparoscopy portal incisions. Thus contemporary ~urgical -staplers can~ot be su~stituted for suturing sin~e they cannot be inserted through the opening of a trocar.
:~ Prior ar~ surgical ~taples generally suffer fxom the deficiency that, after stapling, th~y are undesirably prone to being pulled out of the anatomical body portion and/or therapeutic device into which they have been disposed.
Su~h prior art surgi~al s~aples have straight arms which are not crimped toward each other. ~hus, ~uch prior art ~taples lack a ~echanism to pre~ent their moving away from and out of engagement with the ~at~mical body porti~n a~d/or therapeutic device ~nto wh~ch they have bee~
inserted. Movement of the stapled anat~ al ~ody portions and/or therapeutic devices, as well a6 tens$on placed thereup~n, may cause 6uch prior art ~taples to be pulled out.
In view of the problem~ assooiated with e~doscopic ~uturing and similar surgical procedures, i.e. ~tapling, there exists in the art the need for an improved staple which is not ~ubstantially subject to bei~g i~aavertently pulled out and for an instrument which may be passed into the pneumoperitoneum or the like t~rough a 6tandard (e.g.
l cm) laparo6copy incision to effect stapling o~ anatomical body portions and/or therapeuti~ devices.
~umma~ of-~h~-In~çntiQn The present invention specifically addresse~ and alleviates the aboYe mentioned deficiencies ~s ociated in the prior rt. More particularly, the present inve~tion comprises an improved 6taple and an endo~copic ~tapler.
: The staple has asms which are curved toward each other such that the ctaplP may be crimped BO a~ to cau~e the arms to ~ov~ toward each other and thereby l~c~ the ~taple i~to place. ~his crimping action sub5tantially mitigate~ the likelihood o~ the ætaple being inadYerte~tly pulled out or extracted. ~he staple also has an abutting bend ~orm~d ~: 30 ~uch that co~pression or ~guee2ing together o~ the ~rms of leading or nested staples dispo6ed Eer~ally within an endoscopic ~tapler is prevented and the occurren~es of jamming are reduced. ~he abutment or abutting bend also prevents the improved staple from slippins out of the ~aws of the endos~opic stapler.
..
2~$~
The endoscopic stapler for effecting use of the improved urgical ~taple generally omprise~ an elongate tubular section which ~ay ~e inserted through a standard Se.g. 1 cm) laparoscopy incision i~to a human body; a handle portion having a trigger for affecting the 6tapling process; a pair of extensible jaws disposed at the distal end of the elongate tube for positioning and crimping a ~taple in place; a feed me~hanism for advancing a ~eries of staples to the j3WS; and a means for selectively adjusting the amount of crimp imparted to the ~taple.
~ he improved ~taple and endoscopic ~tapler of the i present invention permit a ~urgeon to rapidly sec~re anatomical body portions and/or therapeutic devices in place within the human body without requiring an i~cision in excess of appreximately 1 centi~eter.
~rief ~es~~tiQ~_Q~ Q_~Y~i~
Figure 1 i~ a perspective view of the endoscopic ~ stapler o~ the present invention positioned to be inserted ; through a trocar and i~to a human abdomen;
~ Figure 2 is an enlar~ed perspective view of the di tal : end of the endoscopic stapler of Figure 1 in the process of ctapling a wound closed;
Fi~ure 3 is an enlarged ~ross seetional viPw of ~he ~ handle of the endoscopic stapler of Figure 1;
; 25 Figure 4 i5 an enlarged perspective view of the distal e~d of the ando~copic stapler o~ Figu~e 1;
Figure 5 is a~ exploded perspective view of the di~tal end of the endoscopic 5tapler of Figure 4;
: Figure 6 i~ a sectional perspeetiv~ ~iew of the :~ 30 tension ~ar, t~e distal end of which i6 show~ i~ Figure 5;
Figure 7 is a perspe~tive view of the extensible j~ws ~ of Figure 5 having the right jaw drawn i~ phantom and ;~ showing the u~dersides thereof;
Figure 8 is an enlarged sectional perspec~ive ~iew o the lower half of the distal end of the elongate tu~e of the endoscopic s~ plex of the present invention showing the extensible jaws partially extended as during the insertion of a staple and showing a nested ~eries of ~aples disposed therein;
Figure 9 is a top plan view of the lower half of ~h~
distal end portion of Figure 8 showing the exten6ible ~aws dispo~ed in their retracted position;
Figure 10 is a cros sectional side view o~ the distal end portion of Figure 9, additionally showing the upper half thereof;
Figure 1l i5 a top plan view of the lower hal~ of the distal end portion of ~he end~copic ~tapler of Figure 8 showing the extensible jaw6 disposed in their extended position;
Figure 12 is a cross 6ectional Eide view o~ the endoscopic stapler of Figure 11, additionally howing the upper half thereof, with the exten~ible jaws disposed in .their extende~ poe:ition; and Figure 13 is an enlarged top plan view of the lower half of the distal end of the endoscopic ~tapler of Figure 11 illustrating the crimping action thereo~, an uncrimped ~taple being ~hown in phantom lines ~nd a ~rimped staple being shown in solid lines.
~ ile~ De~cri~tion af ~ IsY~ati~
~he detailed description set forth below in connection with the appende~ drawings is intended a~ a description of the presently preferred em~odim~nt of the inventio~, and is not intended to represent the only form in which the present inYention ~ay be con~tru~ted or utllized. ~he description ~et~ forth the functions and ~egue~c~ of steps for construcking and operating the in~ention i~ connection with the illustrated embodiments. It is to be under~tood, however, that the same or equivalent functions and sequences may be accomplished by di~ferent embodiments that are also intended to be encompassed within the spirit a~d 2~`~' scope of the invention.
The present invention ~ay be used in any type of endoscopic or other surglcal pro~edure wherein it is dosired to taple anatomical ~ody portions and/ox S therapeutic devices in pla e through a relatively 6mall ~pening. Because the present invention is particularly applicable to intra-abdominal laparoscopic surgical procedures, the invention will be describea herein with particular reference thereto. ~he making of 6uch particular reference to laparos~o~ic surgical procedurçs shall not, however, constitute a limitation on the overall - description and intended application of the present invention. In fact, in addition to intra-abdominal laparoscopic proeedures, the present invention may be usable in ~any other types of procedures.
The improved surgical ~taple of the pre~en~ invention is illustrated in Figures, 4, 5, and 8 - 13. The end~scopie stapler of the present invention is illustr~ted in Figures 1 through 13.
Refexring now to Fi~ures 4 - 13 the improved staple of the present i~vention comprises a ~trai~ht elongate base or rear portion 106 and proximal bends lOB attaching first 112 and ~e~ond 114 arm~ t~ the base 106. A~ a~utment bend 102 is ~ormed upon each arm 112 and 114 ~uch that an out~oard bump or bulge is f~rmed thereby in the outboa~d urface of ~ach ar~ 112 and 11~. A distal bend 110 is ~lso formçd in sach arm 112 and 114 su~h that distal ends os tips lD4 bend toward each other. ~he staple 100 is preferably ~abricated of stainless ~teel although those skilled in the art will recognize that other biologioally compatible materials having similar oharacteristics are likewise suitable.
The improved 5taple 100 ~f the present invention provides a staple which may be used in an endoscopic stapler and which is substantially less subject to being inadvertently pulled out than prior art staples.
-B~
The staple 100 is Qized to be received within an endoscopic stapler. The base 106 generally has a length of - less than 1 cm, with a leng~h of 4 to 6 mm being preferred.
Abutment bends 102 arz proslided to prevent subsequent ~taples 100 from "riding up" on preceding st~pleR 100 as they are urged ~orward in a Ilested 6erie~ tas be~t shown in Figures B, 9, and 11~. Without: the ~butment ber~d su~seguent 6tapl~s 100 may tend o urge the arms 112 and 114 of pre~eding 6taples 100 together, i.e. as when they are crimped, as the staples 100 are urged towasd the distal end of the endoscopic stapler, thereby distortisly the ~hape - of the preceding staples 100 and potentially jamming the endoscopic stapler. The abutment be~d 102 maintains the positioni~g of the tips 104 of subsequent ~aples 100 proximate the bases 106 of preceding ~taples 100 such that the arms 112 and 114 of the subseguent staples 100 do not tend to ride up along the arms 112 and 114 of the preceding staples 100. Thus, performance and reliability of the `: impro~ed staple 100 is enhanced.
The abutment bends 102 also prevent the ~taples 100 : ~rom inadvertently slippin~ out of the ~aws 62 and 64 of an endoscopic tapler. ~hi is neces~ary ~ecaus~ of the ~; ,generally ~" shaped configuration of the ~taples 100 which ~; would otherwise be difficult to g~asp fro~ the sides. As can ~e seen in Figure 8, the abutment ~ends 102 contact the jaw. 62 and 64 ~nd prevent t~e ~taple 100 fr~m ~oving distally prior to being ~rimped.
~he aistal bend 110 formed in each arm 112 a~d 114 : ~orms a preferential ~ending site which causes the tlps 104 to curve toward each other uch that crimping of the arms 112 a~d 114 brings thP tips 104 clo~er together. Thus, crimping the improved staple 100 of the prese~t in~ention ~ firmly ecure~ the staple 100 in place Guch that ths :~ probability o~ the 6taple 100 being inadvertently pulled out of the anatomical body portion or therapeutic de~ice ~z~
into which it i5 inserted is substantially reduced.
~ he distal ends or ~ips 104 of each arm 112 and 114 may be bPveled, cu~ at an angle, or sharpened to improve the ability of the improved staple 100 to penetrate S anatomical ~ody portions and/or therapeutic devices.
As the staples 100 are crimped into place they t~nd to draw the two ~ides of a wound together, thu~ closing the wound in a desirable manner. Additionally, ~rimping causes the staple 100 to pull layered structures together. For example, when a fabric mesh is being stapled 100 ~o an anatomical body portion, ~tapling causes the staple 100 to , pull the fabric mesh into tighter con~act with ~he anatomical body portion as the staple 100 is crimped.
Thus, not only does the improved surgical staple 100 of the present invention reduce the probability of the staple 100 being inadvertently pulled out, but also tends to close wounds and improve the contact of therapeutic devices with anatomical body portions in a desirable manner.
Referring now to Figure 1, the endoscopic stapler for dispensing thQ impro~ed ~taples 100 of the present inYention is comprised generally of an elongate tubular section 18, sized to be inserted through a trocar 12 into a body 14; and a handle 20 having a triggçr 22 pivotally attached thereto, for effecting actuati~n of the stapler mechanism. ~he handle 20 i6 further comprised of firct 24 and second 26 body halves.
Re~erring now to Figure 2, the distal portion 81 ~f he tubular member 18 of t~e endos~opic stapler 10 is illustrated in the proces~ of inserti~g and crimping staples into a wound 79 of an anatomical body portion 16.
. As can be seen, a series or array of ~taples 100 are inserted such that they close the wound 79 and ho}d the two sides of the wound 79 in position for healing. As mentioned above, the crimping process tends to draw the sides of the wound 79 together such that de~irable contact is maintained and healing is facilitated.
Referring now to Figure 3, the actuation ~echanism disposed within the handle 20 i ~ho~n. The actuation mechanism compri6es ~hose oomponents which fac~lltate contrQ1 of the stapling proce~6, i.e. the trig~er and linkage mechanisms. ~he trigger 22 ha~ a finger ~top 30 to improve the grip thereof and thus provide bettex control.
The trigger 22 pivots about ~rigger pivot post ~6 6uch that pulling the trigger 22 causes i~tegral tr~g~er arm 48 to move forward agai~st the biasing of return ~pring 32.
Return spring 32 is attached t~ the trigger arm 48 at - aperture 52 and is attached to the second handle body half 26 by the ~pring post 34. ~he return ~pring 32 thus urges the trigger 22 into an extended or non-actuated position.
A push rod attachment blo~k 42 has a po~t 44 formed thereon which extends through ~ lot 50 formed in the trigger arm 48 such that ~orward motion of th2 trisger arm : 48 causes similar forward motion of the push rod attachment ~:~ block 42. The slot 50 permits the push rod attaehment ~ 20 block 42 to remain in substantially t~e same horizontal :~ plane as it travels forward. Fasteners or screws 4n atta~h the push rod attach~ent block 42 to a pu~h rod 38 which extends su~stantially the length o~ the t~bular me~er 18.
A trigger stop screw 36 extends ~om the forward 2~ portion of the handle ~uch that ~t lim~t~ the rearward travel of the trigger 22. A ~crewdriver ~lot 54 ~or~ed in the rearmost portion of the trigger stop 60rew 36 permits adjust~ent thereof throu~h aperture 56 formed in the handle ~ 2~.
: 30 The tubular member 18 i oompri~ed o~ upper 58, a~d lower 60 housings. Fasteners or s5rewB 2a attaeh the ~irst ~ 24 and ~econd 26 handle body halve6 to~ether.
:~ Referring now to Figure 4, an enlar~ed Yiew of the :~ distal portion 81 of the tubular member 18 is shown. Right 62 and left 64 jaw~ extend from an opening 66 formed in the lower tubular member housing 60 a~d hold an improved staple 100 of the present i~vention such tha~ it may be inserted and crimped into place. A lap 85 extends downward from the upper housind 58. The a~utment bends 102 formed in the ~taple 100 prevent it from Eliding ~orward, out of the jaws 62 and 64. A crimped staple lOOA i~ shown in phantom.
Referring now to Figure 5, an exploded view of the distal portion 81 of the tubular member 18 i~ shown. Upper 58 a~d lower 60 housings contain a~d support the ~ech~nisms for feeding, inserting and crimping the improved surgical ~taples 100. ~he upper housing 58 has an end wall 68 formed at the distal most portion ther~of. The lower housing 60 has an opening 66 ~ormed in the distal end thereof and continuous with a channel 43 formed therethrough and also has an upper surface 51. A jaw closing cam 27 exte~ds upward from the lower surface 41 of the channel 43 proximate the opening 66. Push rod arm rece6ses 35 having rear surfaces 37 and forward ~urfaces 39 are formed in the lower housing 60. A track 45 having a lower surface 49 i ~ormed substantially alons channel 43.
~ ~aw carrier 31 is formed upon the distal p~rtion 98 of the push rod 38 such that the jaw aarrier 31 extends toward the opening 66 of the lower housing 60 as the push rod 38 moves forward when ths trigger 22 is actuated or depressed. The jaw carrier 31 comprises a jaw closing cam ~lot 29 formed in the distal ~ost e~d thereof, pi~ot post apertures 25 formed on either sid~ of th~ jaw clo~ing cam ~lot 29, and a ~aw reoess 23 disposed proximate the pivot post apertures 25 an~ configured to receive a portion of the jaws 62 and 64. A jaw openi~g cam r~eess 21 is - ~onfigured to receive a jaw opening cam 94 which i~ spr~ng biased forward ~y coil ~pring 96. Cam spring recess 19 is disposed ~ the jaw opening cam recess 21 and receives the coil spring 96. Right 11 and le~t 13 pu h rod arms extend upward ~rom the sides o~ he jaw carrier 31 and ~ave 2~
camming surfaces 15 and upper surface~ 17 formed upon the forward upper portio~s thereof. Both push rod arms 11 and 13 have rear ~urfaces 33 (better hown in Figures 9 and 10) which will contact the rear sur~ace 37 of the pu~h rod arm recess 35 when the push rod 38 is di posed in its rearmost position as when the trigger 22 ~ ~ot depre6sed or actuated.
With particular reference t~ Figures 5 and 7, the ~aws 62 and 64 have outboard surfaces 88, opening camming ~urfaces 92 (better 6hown ln Figures 11 and 13), a staple platform 80, ~ta~le support grooves 84, closure camming surfaces 90 and pivot post apertures formed thereo~. Jaw pivot posts 82 are received by thQ jaw pivot post apertures 86 and the jaw carrier pivot po t apertures 25 such that ~ 15 the jaws 62 and 64 may pivot relative to the jaw carrier : 31.
~ he spring biased jaw opening oam 94 has an abutment 6urface 77 configured to abut the opening ~amming ~urfa~e ;~ 92 of the jaws 62 and 64 such that they are cammed toward the open or ~on-crimying position thereof. ~he outboard surfaces 88 of the jaws 62 and 64 abut the channel 43 in the lower housing 60 when the jaw carrier 31 i8 ~ot . extended. Th~ closurQ camming surfaces 90 of the jaws 62 and 64 abut the jaw closi~ oam 27 ~uch that the jaw~ are urged intv a closed or crimped position when th jaw carrier 31 i~ extended as when the trigger 22 is depressed or actuzted. Staple platforms 80 ~ c~nfigured to receive ~ and support an impro~ed ~t~ple 100 of the present :~ invention. The staple ~upport grooves 84 ~apture a portion of the ~ms 112 and 114 ko preve~t ~nadvert~nt release of the staple from the jaws 62 a~d 64.
; With particular reference to Figures 5, 8, 9 a~d 11 a staple tray 72 is sized to be dispo~ed within the track 45 in the lower housi~g 60 and hss a channel 7B which is ~ized and configured to receive a ~eries of nested i~proved 2~
surgical staples 100 of ~he present invention such that the staples 100 may be fed to jaws 62 and 64. Right 74 and le~t 76 guide members guide the series of ~taples 100 and maintain their positions as they are fed ~oward the jaws 62 and 64.
A staple pressure pla~e S5 has camming surfaces 63 configured to contact the camming ~ufaca 15 of the push rod arms 11 and 13 such that the staple pre~sure plate 55 will be cammed upwaxd when the push rod 38 is dispo ed in its forward most position as when the trigger 22 is depressed or actuated. A recess 59 formed in th~ stapl~
pressure plate 55 receives a coil cpring 57 whi~h biases the staple pressure plate 55 downward.
With particular reference to Figures 5 and 6, a lS tension bar 70 has a forward surface 69 and is confi~ured to be received by the staple tray channel 78 ~uch ~hat when the tension bar 70 travels forward a series of nested staples 100 disposed therein are urged forward by the forward ~urface 69.
A rod 71 (shown in Figure 6) i8 attached to the rear portion of the tension bar 70. ~n attachment a~erture 75 provides access to a fastener or ~crew (~ot ~hown) disposed :~ therein for attaching the r~d 71 to the tension bar 70. A
coil spring 73 dispo~ed abou~ the rod 71 urges the te~sio~
bar 70 forward such that it will cause a series of nested staples 100 to move forward toward the ~aw~ 62 and 64.
The rod 71 extends through ths rear o~ the han~l~ 20 ~uch that the proximal end (not 6hown) there~f may b~
grasped ~nd retracted against the urging of ooil spring 73 30 .uch that ~taples 100 may be loaded through the opening 66 into the 6taple tray 72 as di~cussed in further detail below. The proximal end of th~ rod 71 may be knurled or have a knob formed thereon to facilltate grasping.
Having thus described the structure of the improved 35 staple 100 and endoscopic stapler 10 o~ the present 2~
invention, the operation thereof will be discu6sed in detail with reference to Figure 8 through 13 below.
Nith particular re~erence to Pigures 8, 11 and 12 the low~r half o4 the distal portion 81 of the tubular ~ember 18 is shown having the jaws partially ~xtended ~d showing a series of ne ted staples 100 disposed within the 6taple tray 72 ~uch that they ~ay be ~ed forward or digitally toward ths extensible iaws 62 and 64. A ~taple 100 is shown di~posed within the jaws 62 and 64. The ~aw carrier 31 has moved 6ufficiently forward for the clo6ure ~amming surface 90 of the jaws 62 and 64 to contact the jaw closing cam 27 6uch that further forward motion will cause the jaw closing cam 27 to cam into a closed ox crimpins pos1~ion.
When the distal end 81 o4 the tubular ~ember 1B is placed in contact with the anatomical body portion or therapeutic device to be stapled and the trigger 22 is partially deprecsed or actuated, the 6taple 100 i forced into the anatomical ~ody portion or therapeutic device as .~the ~aws 62 and 64 extend to the point illustrat~d in :~20 Figure 8. ~urther, depression or actuatio~ of the trig~er 22 causes the ~ws to ~ove further forward such that the jaw closing cam 27 cam. against the clo~ure cammi~g sur~ace gO o~ the jaws 62 and 64, ther ~y ~ffecting crimpi~g of the staple 100.
In Figure 8 a ne5t~d series of improved ~urgical staples 100 of the present i~vention are ~hown (in pha~tom) dispo6ed within the staple tray 72. ~he ~taples 100 ~re nested ~i~ce a portion o~ a previou6 (~orward) ~tapl~ i~
dispos~d within or between the arms of a 0ubseguent ~resr~
30 ~taple 100.
With particular reference to F~gure~ 9 an~ 10, the distal end 81 of the tubular ~e~ber lB is shown with the extensible jaws 62 and 64 ~ully retracted into the channel 43 as they would be prior to depressing or a~uati~g the 35 trigger 22. In this configuration, the tips 104 of the forward most staple 100 disposed within the staple tray 72 abut the staple abutment surface 83 of the ~taple pressure plate 55 such that further forward movement of the series of nested staples 100 under the urging of the tension bar 70 Ishown in Figures 5 and 6) does ~ot occur.
Depression or actuation of the trigger 22 will cause the push rod 38 to move forward thus causing the staple 100 disposed within the jaws 62 and 64, to extend ~rom the opening 66 formed in the lower tu~ular ~ember housing.
The spring biased jaw openi~g cam 94 (best shown in Figure 5) is biased towards and contacts the opening . camming surfaces 92 of the jaws 62 and 64. Thus, the spring biased jaw opening cam 94 would maintain ~he opened or spread apart positioning of the jaw 62 and 64 even if no staple 100 were presently disposed therein. ~his as~ures that the extendible jaws 62 and 64 will be positioned to accept the next or forward most staple 100 from the s~aple tray 72 after the 6taple 100 presently disp~sed within the extensible jaws 62 and 64 is dispensed.
~he camming surfaces 15 of the arms 11 and 13 do not contact the camming surface 63 ~f the staple pressur~ plate 55 (as best shown in Figure 10). Thus, the staple pressure plate 55 is free to travel downward under the urging of spring 57 such that it contact~ the upper surface of staple 100 disposed within the extensible jaws 62 and 64.
With particul~r xefere~ce to Figures 11 and 12, the distal ~d Bl of the tubular member 1R is show~ with the extensible jaws 62 and 64 partially extended from the channel 43 as they would be after partially depressing or a~tuating the trigger 22. In thi5 configuration the ~taple pressure plate 55 has been cammed upward by the push rod arms 11 and 13. The staples 100 disposed within the ~taple tray 72 can move distally under the urging of spring 73 until the distal most staple 100 abut lip 85. Thus, the distal most staple 100 from the ~taple tray 72 may be urged downward into the ~xtensible ~aw~ 62 and 64 when the ~aws 62 and 64 retract.
$he closing camming surfaces 90 of the extensible jaws 62 and 64 has just contact~d the ~w closing cam 27 in F~gures 11 and 12. Further depre~sio~ or actuation of the trigger 22 would thus cause elosing or cri~ping of the extensible jaws wherein the tips 104 of the ~taple 100 would be forced toward each other a~ the ~xtensible ~aws 62 and 64 move i~to their fully exte~hed po~itio~.
With part~cular reference to Figures 13, the crimping action of the jaws 62 and 64 i8 ~epicted. For~ard ~ovement of the jaw carrier 31 forward of th position illustrated in Figures 8, 11 and 12 causes the closure camming surface 90 of the jaws 62 and 64 to abut and cam against the ~aw cloRing cam 27 such that the tips 104 of a ~taple 100 disposed within the jaws 62 ~nd 64 ~ove toward each other from the position shown in pha~tom 100~ to the position shown in olid lines 100.
The camming action causes the jaws 62 and 64 to rotate :~ 20 against the ur~ing of ~pring bia~ed jaw opening oam 94, thereby forcing the jaw opening cam 94 backwards ~lightly against the urging of spring 96. The ~aw opening ca~ 94 will urgs the jaws 62 and 64 into an open position when the jaws retract into the tubular member 18 as the trigger 22 is released.
~ he amount of crimping action applied to the stapl~
100 by the ~aws 62 and 64 is detsrmined by the positioning of the trigger ~top ~crew 54 (~hown $n Figuxe 3) ~hich limiks the backward travel o~ ths trigg~r 22 a~d thereby likewise limits the ~orward travel Q the push ~od 38. The ~; trigger 6top ~crew 36 ca~ be adjusted by placing the blade of a ~lat tip ~erewdriver within the ~lot 54 ~ormed therei~
and rotating. Aperture 56 ls pro~idcd in the rear of the handle 20 to provide a~oess to the 610t 54 of the trigger stop screw 36. Thus, adjustment of the trigger 8top screw Z~`~ Q ~ ~
36 determines ~he amount which jaws 62 and 64 rotate as they are cammed by jaw closing cam 27.
With the jaws 62 and 64 in their ~xtend~d position, the camming ~urface lS of the arms 11 and 13 contact the camming surfaees 63 of the 6tapler precsure plate S~, thus ur~ng the ~taple pressure plate 55 upward. Relea ing the trigger 22 causes the extensible jaws 62 find 64 to rat~act within the tubular member 18 ~o the position Rhown in Figures 9 and 10 such that the forward most ~taple disposed within the staple tray 72 may be loaded i~to the jaws 62 and 64. Rearward movement o~ the jaw carrier 31 causes the camming ~urfaces 15 of the arms 11 and 13 to cease camming the camming surface 63 of the staple pressure plate 5~ such that the staple plate 55 is permitted to be uxged downward by coil spring 57.
With the jaws 62 and 64 in their extended position the forward most staple 100 in the staple tsay 72 is free to travel forward such it will be positioned to be rece~ved by the jaws 62 a~d 64 when the trigger 22 is released and the ~aws 62 and 64 retract. Thus, whan the ~aws 62 and 64 retract, the pressure plate 55 is permitted to urge the forward ~ost 6taple into position ~uch that ~t i8 ~æ~eived by th~ jaws 62 and 64.
- The endoscopic staples of the present in~ention may be ~abricated primarily of plastic and pre-loaded with staples a~ the time of ~anufacture ~uch that it can be 601d as a disposable ~tem. Thus, there would be no need to refill the endoscopic ~tapler with ~taple~. Alternatively, the endoscopi~ stapler could be fabricated of a ~ore durable material, l.e. ~tainless steel, ~nd disas~em~led, -autoclaved, re-loade~ with staples, and reassembled a~
xeguired. Additio~ally, other ~orms o~ loadi~g the endoscopic tapler are contemplated.
It is understood that the exemplary improved surgical ~taple and the endoscopic stapler described herein and shown in the drawi~gs represent~ o~ly presently preferred embodiments of the invention. Indeed, various modifications and additions may be made to such embodiments without departing from ~he pirit and 8~0pe of the i~entio~. For example, the i~proved surgical staple ~eed ~ot be ~o~figured preci~ely a~ show~, ~ut rather ~ay utilize a variety of shape~ that permit ~rimpin~ and facilitate use with an endoscopic ~tapler. $hu~, these and other modiflcat~.ons and additlo~ ~ay be obviou to those ~killed in the art and may be i~plementad to ~dapt the present lnvention for use i~ a ~ariety of different : applications.
Also, a ~ariety o ~echa~ismQ are co~te~plated for ef ecting movement of the pu~h rod 38. ~hu~ thQ present invention need not be limited to the trigger and linkage meohaniems depioted.
~ ' :;
Claims (21)
1. An improved surgical staple for use in surgical procedures comprising:
(a) a base portion;
(b) two arms extending from said base portion, each arm having a distal end having an inwardly directed beveled surface;
(c) a first bend formed in each arm such that the distal ends of said arms are curved inwardly toward each other;
(d) wherein the staple may be crimped such that the distal ends thereof move toward each other such that the beveled surfaces are in confronting relation to decrease the probability of the staple being inadvertently extracted.
(a) a base portion;
(b) two arms extending from said base portion, each arm having a distal end having an inwardly directed beveled surface;
(c) a first bend formed in each arm such that the distal ends of said arms are curved inwardly toward each other;
(d) wherein the staple may be crimped such that the distal ends thereof move toward each other such that the beveled surfaces are in confronting relation to decrease the probability of the staple being inadvertently extracted.
2. The improved surgical staple as recited in Claim 1 further comprising:
(a) an abutment formed in each of said arms intermediate said first bend and said base portion; and (b) wherein a plurality of said staples are disposable in a nested series fashion within an endoscopic stapler.
(a) an abutment formed in each of said arms intermediate said first bend and said base portion; and (b) wherein a plurality of said staples are disposable in a nested series fashion within an endoscopic stapler.
3. The improved staple as recited in Claim 2 wherein:
(a) said base portion is substantially straight; and (b) said abutment comprises a second bend formed in said arms.
(a) said base portion is substantially straight; and (b) said abutment comprises a second bend formed in said arms.
4. An improved staple for use in surgical procedures comprising:
(a) a length of metal wire formed to have:
(i) a substantially straight base;
(ii) two curved arms having distal ends extending from said base such that the distance between the distal ends thereof is less than the length of the base, said distal ends having inwardly directed beveled surfaces;
(iii) a bend formed in each arm intermediate the distal end thereof and the base such that an abutment is formed thereby; and (b) wherein crimping of the staple causes the distal ends thereof to move toward each other such that the beveled surfaces are brought into confronting relation and the probability of the staple being inadvertently extracted is reduced.
(a) a length of metal wire formed to have:
(i) a substantially straight base;
(ii) two curved arms having distal ends extending from said base such that the distance between the distal ends thereof is less than the length of the base, said distal ends having inwardly directed beveled surfaces;
(iii) a bend formed in each arm intermediate the distal end thereof and the base such that an abutment is formed thereby; and (b) wherein crimping of the staple causes the distal ends thereof to move toward each other such that the beveled surfaces are brought into confronting relation and the probability of the staple being inadvertently extracted is reduced.
5. An endoscopic stapler for stapling anatomical body portions and therapeutic devices within a the body, said stapler comprising:
(a) an elongate member having a distal end, said elongate member sized to be received by a trocar;
(b) a plurality of staples disposed [being disposable] within said elongate member;
(c) an actuating mechanism disposed proximate the distal end of said elongate member;
(d) jaw means positioned at the distal end of said elongate member, said jaw means being adapted to receive a staple from within said elongate member;
wherein actuation of said actuating mechanism causes a staple to be formed by said jaw means dispensed from the distal end of said elongate member such that:
(i) said staple is urged into the anatomical body portion or therapeutic device material being stapled;
(ii) the distal ends of said staple are crimped toward each other into confronting relation.
(a) an elongate member having a distal end, said elongate member sized to be received by a trocar;
(b) a plurality of staples disposed [being disposable] within said elongate member;
(c) an actuating mechanism disposed proximate the distal end of said elongate member;
(d) jaw means positioned at the distal end of said elongate member, said jaw means being adapted to receive a staple from within said elongate member;
wherein actuation of said actuating mechanism causes a staple to be formed by said jaw means dispensed from the distal end of said elongate member such that:
(i) said staple is urged into the anatomical body portion or therapeutic device material being stapled;
(ii) the distal ends of said staple are crimped toward each other into confronting relation.
6. The endoscopic stapler as recited in claim S wherein said jaw means comprises further comprising:
(a) two opposing jaws configured to hold and crimp a staple; and further comprising (b) a channel sized and configured to receive a series of nested staples and to feed said staples toward said jaws;
(c) wherein said jaws crimp a staple held therein and said channel feeds the staples received thereby in response to the actuation of said actuating mechanism.
(a) two opposing jaws configured to hold and crimp a staple; and further comprising (b) a channel sized and configured to receive a series of nested staples and to feed said staples toward said jaws;
(c) wherein said jaws crimp a staple held therein and said channel feeds the staples received thereby in response to the actuation of said actuating mechanism.
7. The endoscopic stapler as recited in Claim 6 wherein said actuating mechanism comprises:
(a) a trigger; and (b) a push rod attached to said trigger such that said push rod moves in response to actuation of said trigger, said push rod being attached to said jaws such that said jaws extend in response to motion of said push rod.
(a) a trigger; and (b) a push rod attached to said trigger such that said push rod moves in response to actuation of said trigger, said push rod being attached to said jaws such that said jaws extend in response to motion of said push rod.
8. The endoscopic stapler as recited in Claim 7 further comprising a pressure plate disposed within the distal end of said elongate member, said pressure plate being spring biased to urge staples into said jaws.
9. The endoscopic stapler as recited in Claim 8 further comprising:
(a) a first ca,,ing surface formed on said push rod;
(b) a second corresponding camming surface formed on said pressure plate;
(c) wherein the motion of said push rod resulting from the actuation of said trigger causes said first and second camming surfaces to cooperate such that said pressure plate is urged away from said jaws to facilitate the feeding of a staple from said channel to said jaws.
(a) a first ca,,ing surface formed on said push rod;
(b) a second corresponding camming surface formed on said pressure plate;
(c) wherein the motion of said push rod resulting from the actuation of said trigger causes said first and second camming surfaces to cooperate such that said pressure plate is urged away from said jaws to facilitate the feeding of a staple from said channel to said jaws.
10. The endoscopic stapler as recited in Claim 9 further comprising:
(a) a spring disposed proximate said jaws for biasing said jaws apart;
(b) a third camming surface formed within said elongate member;
(c) fourth camming surfaces formed upon said jaws;
(d) wherein exxtension of said jaws causes said third and fourth camming surfaces to cooperate to urge said jaws together.
(a) a spring disposed proximate said jaws for biasing said jaws apart;
(b) a third camming surface formed within said elongate member;
(c) fourth camming surfaces formed upon said jaws;
(d) wherein exxtension of said jaws causes said third and fourth camming surfaces to cooperate to urge said jaws together.
11. The endoscopic stapler as recited in Claim 10 further comprising an adjustment means disposed within said stapler for limiting the movement of said trigger such that the amount of crimp applied to a staple may be selectively varied.
12. The endoscopic stapler as recited in Claim 11 further comprising a spring for urging a series of nested staples through said channel toward said jaws.
13. The endoscopic stapler as recited in Claim 12 wherein the outer diameter of said elongate member is less than one centimeter.
14. An endoscopic stapling system for stapling anatomical body portions and therapeutic devices within a the body, said stapler comprising:
(a) a staple configured such that the distal ends have inwardly directed beveled surfaces which are adapted to thereof move toward each other into confronting relation when crimped to reduce the probability of the staple being inadvertently extracted;
(b) a stapler having jaw means configured to sequentially receive a plurality of said staples, and to crimp said staples to anatomical portions of the body and to therapeutic devices.
(a) a staple configured such that the distal ends have inwardly directed beveled surfaces which are adapted to thereof move toward each other into confronting relation when crimped to reduce the probability of the staple being inadvertently extracted;
(b) a stapler having jaw means configured to sequentially receive a plurality of said staples, and to crimp said staples to anatomical portions of the body and to therapeutic devices.
15. The endoscopic stapling system as recited in Claim 14 wherein:
(a) said staple comprises:
(i) a base portion;
(ii) two arms extending from said base portion, each arm having a distal end with an inwardly directed beveled surface; and (iii) a first bend formed in each arm such that the distal ends of said arms are curved toward each other; and (b) said stapler comprises:
(i) an elongate member having a distal end, said elongate member sized to be received by a trocar, a plurality of staples being disposable within said elongate member;
(ii) an actuating mechanism disposed proximate the proximal end of said elongate member;
(c) wherein actuation of said actuating mechanism causes a staples to be dispensed from the distal end of said elongate member such that (i) said staple is urged into the material being stapled;
(ii) the distal ends of said staple are crimped toward each other.
(a) said staple comprises:
(i) a base portion;
(ii) two arms extending from said base portion, each arm having a distal end with an inwardly directed beveled surface; and (iii) a first bend formed in each arm such that the distal ends of said arms are curved toward each other; and (b) said stapler comprises:
(i) an elongate member having a distal end, said elongate member sized to be received by a trocar, a plurality of staples being disposable within said elongate member;
(ii) an actuating mechanism disposed proximate the proximal end of said elongate member;
(c) wherein actuation of said actuating mechanism causes a staples to be dispensed from the distal end of said elongate member such that (i) said staple is urged into the material being stapled;
(ii) the distal ends of said staple are crimped toward each other.
16. The endoscopic stapling system as recited in Claim 16 wherein:
(a) said staple further comprises an abutment formed in said arms intermediate said first bend and said base portion;
(b) said stapler further comprises:
(i) two opposing jaws configured to hold and crimp a staple; and (ii) a channel sized and configured to receive a series of nested staples and to feed said staples toward said jaws; and (c) wherein:
(i) said jaws may crimp a staple held therein;
(ii) said abutment prevents said staple from slipping from said jaws prior to being crimped; and (iii) said channel feeds staples received thereby to said jaws in response to the actuation of said actuating mechanism.
(a) said staple further comprises an abutment formed in said arms intermediate said first bend and said base portion;
(b) said stapler further comprises:
(i) two opposing jaws configured to hold and crimp a staple; and (ii) a channel sized and configured to receive a series of nested staples and to feed said staples toward said jaws; and (c) wherein:
(i) said jaws may crimp a staple held therein;
(ii) said abutment prevents said staple from slipping from said jaws prior to being crimped; and (iii) said channel feeds staples received thereby to said jaws in response to the actuation of said actuating mechanism.
17. The endoscopic stapling system as recited in Claim 16 wherein:
(a) said base portion is substantially straight;
(b) said abutment comprises a second bend in said ams; and (c) said actuating mechanism comprises:
(i) a trigger; and (ii) a push rod attached to said trigger such that said push rod moves in response to actuation of said trigger, said push rod being attached to said jaws usch that said jaws extend in response to motion of said push rod.
(a) said base portion is substantially straight;
(b) said abutment comprises a second bend in said ams; and (c) said actuating mechanism comprises:
(i) a trigger; and (ii) a push rod attached to said trigger such that said push rod moves in response to actuation of said trigger, said push rod being attached to said jaws usch that said jaws extend in response to motion of said push rod.
18. The endoscopic stapling system as recited in Claim 17 wherein:
(a) said stapler further comprise a pressure plate disposed within the distal end of said elongate member and spring biased to urge staples into said jaws.
(a) said stapler further comprise a pressure plate disposed within the distal end of said elongate member and spring biased to urge staples into said jaws.
19. The endoscopic stapling system as recited in Claim 18 wherein:
(a) at least one first camming surface is formed on said push rod;
(b) at least one second corresponding camming surface is formed on said pressure plate;
(c) wherein the motion of said push rod resulting from the actuation of said trigger causes said first and second camming surfaces to cooperate such that said pressure plate is urged away from said jaws to facilitate the feeding of a staple from said channel to said jaws.
(a) at least one first camming surface is formed on said push rod;
(b) at least one second corresponding camming surface is formed on said pressure plate;
(c) wherein the motion of said push rod resulting from the actuation of said trigger causes said first and second camming surfaces to cooperate such that said pressure plate is urged away from said jaws to facilitate the feeding of a staple from said channel to said jaws.
20. The endoscopic stapling system as recited in Claim 19 further comprising:
(a) a spring disposed proximate said jaws for biasing said jaws apart;
(b) a third camming surface formed within said elongate member;
(c) fourth camming surfaces formed upon said jaws:
(d) wherein extension of said jaws causes said third and fourth camming surfaces to cooperate to urge said jaws together.
(a) a spring disposed proximate said jaws for biasing said jaws apart;
(b) a third camming surface formed within said elongate member;
(c) fourth camming surfaces formed upon said jaws:
(d) wherein extension of said jaws causes said third and fourth camming surfaces to cooperate to urge said jaws together.
21. The endoscopic stapling system as recited in Claim 20 further comprising:
(a) an adjustment means disposed within said stapler for limiting the movement of said trigger such that the amount of crimp applied to a staple may be varied;
(b) a spring for urging said series of nested staples through said channel toward said jaws; and (c) wherein the outer diameter of said elongate member is less than one centimeter.
(a) an adjustment means disposed within said stapler for limiting the movement of said trigger such that the amount of crimp applied to a staple may be varied;
(b) a spring for urging said series of nested staples through said channel toward said jaws; and (c) wherein the outer diameter of said elongate member is less than one centimeter.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US65302991A | 1991-02-08 | 1991-02-08 | |
| US07/653,029 | 1991-02-09 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA2060040A1 true CA2060040A1 (en) | 1992-08-10 |
Family
ID=24619205
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002060040A Abandoned CA2060040A1 (en) | 1991-02-08 | 1992-01-24 | Surgical staple and endoscopic stapler |
Country Status (4)
| Country | Link |
|---|---|
| US (1) | US5392978A (en) |
| EP (1) | EP0503271B1 (en) |
| CA (1) | CA2060040A1 (en) |
| DE (1) | DE69219806T2 (en) |
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| US5222975A (en) | 1992-07-13 | 1993-06-29 | Lawrence Crainich | Surgical staples |
-
1992
- 1992-01-24 CA CA002060040A patent/CA2060040A1/en not_active Abandoned
- 1992-02-06 DE DE69219806T patent/DE69219806T2/en not_active Expired - Lifetime
- 1992-02-06 EP EP92101970A patent/EP0503271B1/en not_active Expired - Lifetime
-
1993
- 1993-10-15 US US08/137,884 patent/US5392978A/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| EP0503271A3 (en) | 1992-10-28 |
| EP0503271A2 (en) | 1992-09-16 |
| EP0503271B1 (en) | 1997-05-21 |
| US5392978A (en) | 1995-02-28 |
| DE69219806D1 (en) | 1997-06-26 |
| DE69219806T2 (en) | 1997-10-16 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| FZDE | Discontinued | ||
| FZDE | Discontinued |
Effective date: 20000124 |