CA1198024A - Surgical stapling instrument and cartridge therefor - Google Patents
Surgical stapling instrument and cartridge thereforInfo
- Publication number
- CA1198024A CA1198024A CA000423414A CA423414A CA1198024A CA 1198024 A CA1198024 A CA 1198024A CA 000423414 A CA000423414 A CA 000423414A CA 423414 A CA423414 A CA 423414A CA 1198024 A CA1198024 A CA 1198024A
- Authority
- CA
- Canada
- Prior art keywords
- staple
- former
- slot
- cartridge
- leaf spring
- 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.)
- Expired
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
- A61B17/04—Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/10—Surgical instruments, devices or methods, e.g. tourniquets for applying or removing wound clamps, e.g. containing only one clamp or staple; Wound clamp magazines
-
- 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
Abstract
SURGICAL STAPLING INSTRUMENT
AND CARTRIDGE THEREFOR
ABSTRACT OF THE DISCLOSURE
A surgical stapling system comprising a surgical stapling instrument and a staple-carrying cartridge therefor. The surgical stapling instrument comprises a pliers-like instrument having upper and lower handles pivotally joined together. The upper handle has an elongated front portion terminating in an anvil. A staple former is slidably mounted on the front portion and is axially shiftable thereon by the lower handle between a normal or retracted position and a staple forming position. Cooperating leaf springs are mounted on each of the handles to normally urge the handles apart and the former to its retracted position. Portions of the leaf springs cooperate to lock the former in a staple gripping position. The cartridge comprises an elongaged member having a plurality of transverse slots formed in its upper surface and in parallel spaced relationship. A surgical staple of inverted U-shaped configuration, having downwardly depending legs and a crown portion extending therebetween, is located in each transverse slot. Each transverse slot is of a length such that its ends frictionally engage the legs of the surgical staple therein. A longitudinal groove is formed in the upper surface of the cartridge, extending the length of the cartridge and intersecting the transverse slots therein.
The longitudinal groove is of a width and depth such as to receive the surgical stapling instrument nose portion with the staple former above and the anvil surface below the crown of an individual staple in the cartridge, so that the crown of the staple may be engaged between the instrument former and the anvil surface and extracted from the cartridge by the surgical stapling instrument.
AND CARTRIDGE THEREFOR
ABSTRACT OF THE DISCLOSURE
A surgical stapling system comprising a surgical stapling instrument and a staple-carrying cartridge therefor. The surgical stapling instrument comprises a pliers-like instrument having upper and lower handles pivotally joined together. The upper handle has an elongated front portion terminating in an anvil. A staple former is slidably mounted on the front portion and is axially shiftable thereon by the lower handle between a normal or retracted position and a staple forming position. Cooperating leaf springs are mounted on each of the handles to normally urge the handles apart and the former to its retracted position. Portions of the leaf springs cooperate to lock the former in a staple gripping position. The cartridge comprises an elongaged member having a plurality of transverse slots formed in its upper surface and in parallel spaced relationship. A surgical staple of inverted U-shaped configuration, having downwardly depending legs and a crown portion extending therebetween, is located in each transverse slot. Each transverse slot is of a length such that its ends frictionally engage the legs of the surgical staple therein. A longitudinal groove is formed in the upper surface of the cartridge, extending the length of the cartridge and intersecting the transverse slots therein.
The longitudinal groove is of a width and depth such as to receive the surgical stapling instrument nose portion with the staple former above and the anvil surface below the crown of an individual staple in the cartridge, so that the crown of the staple may be engaged between the instrument former and the anvil surface and extracted from the cartridge by the surgical stapling instrument.
Description
~ ~9~
AND CARTRIDGE THEREFOR
ROBER'r G. ROTH~FUSS `~
TECHNICAL FIELD
The invention relates to a surgical stapling ins~rument and cartridge thereor, and more particularly to a pliers-like surgical stapling instrument and a separate one-piece cartridge containing a plurality of staples, each of whi~h may be individually withdrawn from the cartridge by the surgical stapling instrument, to be implanted and formed in the skin or fascia of a patient.
BACKGROUND ART
Recently, surgeons have come more and more to the use of staple sutures, rather than conventional thread sutures, for closing wounds or incisions in the skin or fascia of a patient. This trend ls due in 2art to the fact that the use of staples is a far easier procedure.
O~ even more importance, however, is that ~he use of surgical staples is very much faster. This substantially reduces the time required for suturing and the length of time the patient must be maintained under anesthesia.
Prior art workers have devised many types of surgical stapling instruments. Exemplary instruments are taught, for examplç~ ln U.S. Patent 3,819,100 and U.S. Patent 4,196,836.
Such surgical stapling instruments have a number of common drawbacks. First of all, they are relatively complicated in construction and design, with a plurality of moving parts. Such instruments, by virtue oE their complexity, are subject to jamming, misformed staples and misfed staples. In general, they are bullcy at the staple discharge end, thereby obstructing the surgeon's visibility. Their bulkiness and weight in the surgeon's hand may cause excessive Eatigue when many staples are required to close a wound or inclsion.
.,~.
,.
~98~
U.S. Patent 3,278,107 teaches surgical staple applying instruments in the form oE a tweezer type ins~rument and a hemostat type instrument. Both instrumen~s are prov~;~ded with anvil portions. ~owever, they are oE the type wherein the surgical staple is clinched by the anvil portion, ra~her than formed thereabout.
Prior art workers have also devised numerous hemostatic-type surgical instruments for the application oE ligator clips. Exemplary instruments of this type are taught in U.S. Patents 3,270,745; 3,326~216; 3,439,523;
3,631,707 and 3,867~944. Instrumen~s of this type, however, are used in a pliers-like fashion to clamp clips about tubular vessels and the like.
Heretofore, prior art workers have developed many types f cartridges Eor surgical staples. U.S. Patent 37618,842 teaches a surgical staple cartridge in whlch t'ne staples are fed by a twin screw arrangement. A ratchet-driven surgical staple cartridge is described in U.S. Patent 3,638,847. In U.S. Patent 3,650,453 a surgical staple cartridge is taught wherein the staples are belt-Eed.
Finally, in U.S. Patent 4,043,504 there is described a surgical staple cartridge wherein the staples are spring-fed.
These prior art surgical staple cartridges, of which the above noted patents are exemplary only, are generally characterized by complex construction and numerous moving parts. As a result, the opportunity for jamming or misforming of the surgical staples is increased. Such cartridges are normally mounted on the surgical stapling instrument itself. ~ue to their complex construction and bul~iness they further impede the surgeon's visibility and render it more diicult to accurately locate a surgical staple and see it being formed in the tissue.
Many of the above noted U.S. Patents dealing with instruments for applying ligator clips teach magazines ~Eor such clips which are wholly separate -Erom the instruments themselves. Such magazines, however, are no~ suitable for use with surgical staples since surgical staples rnus~ be grasped in a different manner so that they can be clinched about an anvil surface, rather than simply being clamped shut, as in the case of ligator clips.
The above noted U.S. Patent 3~278,107 teaches a surgical staple cartridge wholly separate from the applying instruments. In this instance, however, the cartridge is an elongated rectangular hollow member containing a plurality of spring-advanced capsules or housings, each containing a surgical staple. The stapling instrument engages and remo-ves from the cartridge both a surgical staple and the capsule or housing contalning it.
The present invention is directed to a surgical stapling sys~em comprising a surgical stapling instrument and a wholly separate ~staple-carrying cartridge there~or.
The surgical stapling instrument ltself is of very simple six-piece construction. It provides a staple pick-up and locking feature. The lnstrument is of sturdy~
light weight, permanent construction capable of sterilization by any of the well known methods, and is virtually maintenance ~ree. The instrument provides excellent visibili~y, enabling the entire staple to be seen with the result that accurate placement is very simple to achieve. The instrument cannot jam or misform the staple.
The instrument ca~ be completely assembled and disassembled in a ma~ter of seconds without the use o~
tools. Finally, the instrument is adaptable to many 3o diEferent staple sizes.
The cartridge of the present inventlon is characterized by a very simpLe one-piece molded construction. Tlle number of staples to be held in the cartridge is limited only by a practical and convenient length for the cartridge. The design itself is such that the size oE
s~aple to be housed in it and ~he wire size of ~he staple are not limiting Eactors.
The car-trldge and the staples it contains may be ~.
sterilized or resterilized by any of the conventional methods. The cartridge lends it~elf well to a wide range of pre-sterile packaging.
The one-piece cartridge can be molded of appropriate plastic material in a variety of colors. Thus, the cartridge could be color-coded for quick identi~ication of the size oE the staples contained therein. The surgeon can readily ascertain at a glance how many staples remain in the cartridge at any given time. The cartridge may be provided with a pressure sensitive adhesive means on its bottom surace so that it can be removably affixed to any appropriate support, eliminating the necessity for ~he surge,on to hold the cartridge in his hand during the staple suturing procedure. Al~ernatively, the bottom of the cartridge may be con~igured to fit into an appropriate weighted base.
The cartridge of the present invention has means assuring that the anvil portion o~ the surgical stapling instrument will be properly centered under the crown o~
each surgical staple. Since the staples are held in place in the cartridge by an interference fit between the outer surfaces of the staple legs and the vertical inner surfaces of the ends of the staple slots, the cartridge can readily be shipped in a filled condition and will, nevertheless, provide for easy and positive removal o~ the ~taples from the cartridge. Finally, the cartridge is easily and inexpensively manu~actured and, aEter use, the cartridge provides minimal disposable waste.
DISCLOSURE OF THE INVENTION
According to the invention there is provided a surgical stapling sy~stem comprising a surgical stapling instrument and a staple-carrying cartridge thereEor. The surgical ;3 8 ~ L~
stapling instrument comprises a pliers-like instrument having first and second handles pivotally joined to~ether.
The first handle has an elongated, downwardly dependlng nose portion which terminates at its lowermost end in an anvil having an anviI surface. A staple former is slidably ~ounted on the nose portion of the first handle and is axially shiftable therealong by the second handle between a normal or a retracted position and a staple-forming position. Each of the handles has a leaf spring mounted thereon. The leaf springs cooperate to urge the handles apart and bias the former to its normal position.
Portions of the leaf springs additionally cooperate to lock the former in a staple gripping position~ This enables the instrument to extract a staple from the cartridge and lock it in proper position on the instrument anvil in preparation for forming and implanting in the skin or fascia of the patient.
The surgical staple-carrying cartridge of the present invention comprises a simple, one-piece, integral, elongated member which may be molded of any appropriate plastic material suitable for use in a surgical environment and capable of being sterilized by one or more of the well-known sterilization procedures. The cartridge comprises an elongated, substantially rectangular member having sides, ends, and top and bottom surfaces. A
plurality of transversely extending slots are formed in the upper surface of the cartridge in parallel-spaced relationship. The slots are vertically oriented -Ln the cartridge and the ends of each slo~ are vertical. A
conv~ntional surgical staple of inverted IJ-shaped configuration, having downwardly depending legs and a crown portion extendlng therebetween, is located in each of the transverse slots. The slots are so si~ed with respect to the staples that the vertical ends oE each slot frictionally engage the legs oE the surgical staple located therein. The slots are of such depth that the crowns oE the staples located therein are parallel to and spaced slightly below the top surface of the cartri~e so as to be wholly contained therein.
The top surface of the cartridge has a groove o~
T-shaped cross section formed therein. The groove extends longitudinally and centrally of the cartridge throughout i~s length. The groove is oE such width and depth as to receive the anvil por~ion of the surgical stapling ~o instrument enabling the anvil sur:Eace oE the instrument to be located beneath the crown of the endmost staple in the cartridge so that the staple can be engaged between the anvil surface and the former and thus extracted from the cartridge by the surgical stapling instrument. The tran5verse staple-containing slots of the cartrldge are so spaced from each other such that each staple may be extracted in its turn Erom the cartridge without disturbing the next adjacent staple in the cartridge. ~he longitudinal groove in the cartridge assures that the - 20 instrument anvil is centered with respect to the crown of each staple extracted.
BRIEF DESCRIPTION OF THE DRAWIN~S
Figure 1 is a side eleva~ional view of the surgical stapling instrument of the present invention shown in its normal position.
Figure 2 is a side elevational view, partly in cross section, again showing the instrument in l~s normal position.
Figure 3 is a cross sectional view oE the first handle o the instrument o Figure l.
Figure 4 is a cross sectional view taken along section line 4-4 of Figure 3.
Figure 5 is a cross sectional view taken along section line 5-S of Figure 3.
Figure 6 is a Eront elevational view oE the surgical stapling instrument formerO
Figure 7 ls a side elevational view of the Eormer o~
Figure 6. ~.
Figure 8 is a rear elevational view of the former of Figure 6.
Figure 9 is a plan view of the second handle of the surgical stapling instrument.
Figure lQ is a plan view of the pivot pin and keeper assembly of the present invention.
Figure ll is a side elevat;onal view of the pivot pin and keeper assembly of Figure 10.
Figure 12 is an end eleva~ional view of the pivo~ pin and keeper assembLy, as seen from the right in Figure 11.
Figure 13 is an elevational view of the surgical stapling instrument, partly in cross section, illustrating the instrument in its staple pick-up and lock position.
Figure 14 is a side elevational view of the surgical stapling instrument, partly in cross s~ction, illustrating the instrument in its closed (staple-formed) position.
Figure 15 is a top plan view of the surgical staple cartridge of the present invention.
Figure 16 is a longi.tudinal cross sectional view taken along section line 16-16 of Figure lS.
Figure 17 is a transverse cross sectional view taken along section line 17-17 of Figure 15.
Figure 18 is an enlarged elevational view, partly in cross section, illustrating the nose portion oE the surgical stapling instrument in position to withdraw a surgical staple from the cartridge.
Figure 19 is a transverse cross section view of the cartridge, illustrating the nose portion of the surgical s~apling instrument in the same position shown in Figure 18.
Figure 20 is a fragmentary cross section view, simîlar to Figure 18, i.llustrating engagement of the staple by the surgical stapling instrument: l~etween its anvil surface and lts Eormer i.mmediately prior ~o removal oE tlle staple from the cartridge. `~.
Figure 21 is a :Eragmentary partial cross sectional 5 view, similar to Figure 19, illustrating the parts in the same relative position shown in Fi~;ure 20.
Figure 22 is a fragmen~ary elevational view, partly in cross section, illustratin~ the lmplanting and forming of a surgical staple in the skin or fascia o~ a patient.
Figure 23 is a :Eragmentary elevational view, partly in cross section, illustrating the staple a~ter having been ~ormed and implanted in the skin of a patient.
Figure 24 is a fragmentary cross sectional elevational view illustrating the locking tab oE the spring affixed to 15 the first handle in its normal position within the H-shaped perforation in the spring affixed to the second handle .
Figure 25 is a ~ragmentary elevational view oE the structure of Figure 24 as seen from the right of that 20 Figure.
Figure 25 is a ragmentary bottom view of the structure of Figure 24.
Figure 27 is a ~ragmentary, cross sectional, elevational view, similar co Figure 24, illustrating the 25 locking tab in locked position.
Figures 28 and 29, similar to Figures 25 and 26, respectively, illustrate the locking tab in locked positio~.
Figures 30, 31 and 32, equivalent to Figures 24, 25 and 3o 26, respectively, illustrate the parts in their relative positions immediately prior ~o the ins~rument achieving its fully closed (staple-formed) position shown in Figure 14.
Figures 33, 34 and 35, equivalent to Figures 24, 25 and 3S 26, respectively, illustrate the relative position of the parts when the instrument is in its fully closed (staple-~ormed) position as shown in Figure 1-4.
DETAILED DESCRIPTION OF THE INVENTION ~
The surgical stapling system of the present invention comprises a surgical stapling instrumen~ and a staple-carrying cartridge therefor. For purposes of clarity, the surgical stapling instrument will -first be described. In all o$ the Figures, like parts have been given like index numerals.
Reference is first made to Figures 1 and 2, wherein the surgical stapling ins-trument is generally indicated at 1.
The surgical stapling instrument is ~ade up of six basic parts: a first or upper handle 2, a second or lower handle 3, a pivot pin and keeper assembly 4, a former 5, an upper spring 6 affixed to the upper handle 2 and a lower spring 7 affixed to the lower 'nandle 3~
Attention is directed also to Figures 3 and 4 wherein the upper handle 2 is shown in greater detail. The upper handle 2 has a handle portion 8 adapted to be grasped by the hand o the surgeon, a central body portion 9, and an elongated downwardly depending nose portion 10. The central body portion 9 has a slot ll extending theretl~rough, dividing the central portion 9 into two parts or wall portions 9a and 9b in parallel spaced relationship (see Figure 4). Each of the parts or walls 9a and 9b has a slot formed therein, as shown at l2 and 13, respectively. The slots 12 and 13 extend in the general direction of the nose portion 10, as is evident from Figures 3 and 4. The walls 9a and 9b have a pair of 3o coaxial perforations formed therein, one of which is shown at 14 in Flgure 3. These perforations are adapted to receive a pivot pin, as will be described hereinaEter.
The elongated nose portion 10 provides a flat forward face 10a which is coextensive with and coplanar with the forward edges 9c and 9d of wall portions 9a and 9b, 'L~
respectively. Near its lower end, the nose portion lO is provided with a Eorwardly extending lug 15 o~ T-shaped cross sec~ion (see Figure 4). ~
Nose portion lO terminates in a Eorwardly extending anvil 16 having an anvil surEace 17 and a downwardly depending flange or keel 1~ (see Figures 13 and 19), the purpose of which will be described hereinafter.
The former 5 of the sur~ical stapling instrument is illustrated in Figures 6 ~hrough 8. The former comprises an elongated member having a front surface l9 and a flat rear surface 20. Mear its upper end, the former has a narrow rectangular perforation or window 21, extending from the rear surEace 20 through the fron~ surface 19.
The purpose of window 21 will be evident hereinafter.
Extending rearwardly o-f surface 20, near the upper end oE
the former and jus~ below the window 21, there is a lug 22 of T-shaped cross section. The flanges of lug 22 are adapted to be slidably received in the slots 12 and 13 o:E
upper handle 2 (see Figure 4). Extending from its lowermost end, longitudinally o:~ the former, there is a slot 23 of T-shaped cross section. The slot 23 is adapted to slidably receive the lug 15 on nose portion ln of upper handle 2. In this fashion~ the engagement of former lug
AND CARTRIDGE THEREFOR
ROBER'r G. ROTH~FUSS `~
TECHNICAL FIELD
The invention relates to a surgical stapling ins~rument and cartridge thereor, and more particularly to a pliers-like surgical stapling instrument and a separate one-piece cartridge containing a plurality of staples, each of whi~h may be individually withdrawn from the cartridge by the surgical stapling instrument, to be implanted and formed in the skin or fascia of a patient.
BACKGROUND ART
Recently, surgeons have come more and more to the use of staple sutures, rather than conventional thread sutures, for closing wounds or incisions in the skin or fascia of a patient. This trend ls due in 2art to the fact that the use of staples is a far easier procedure.
O~ even more importance, however, is that ~he use of surgical staples is very much faster. This substantially reduces the time required for suturing and the length of time the patient must be maintained under anesthesia.
Prior art workers have devised many types of surgical stapling instruments. Exemplary instruments are taught, for examplç~ ln U.S. Patent 3,819,100 and U.S. Patent 4,196,836.
Such surgical stapling instruments have a number of common drawbacks. First of all, they are relatively complicated in construction and design, with a plurality of moving parts. Such instruments, by virtue oE their complexity, are subject to jamming, misformed staples and misfed staples. In general, they are bullcy at the staple discharge end, thereby obstructing the surgeon's visibility. Their bulkiness and weight in the surgeon's hand may cause excessive Eatigue when many staples are required to close a wound or inclsion.
.,~.
,.
~98~
U.S. Patent 3,278,107 teaches surgical staple applying instruments in the form oE a tweezer type ins~rument and a hemostat type instrument. Both instrumen~s are prov~;~ded with anvil portions. ~owever, they are oE the type wherein the surgical staple is clinched by the anvil portion, ra~her than formed thereabout.
Prior art workers have also devised numerous hemostatic-type surgical instruments for the application oE ligator clips. Exemplary instruments of this type are taught in U.S. Patents 3,270,745; 3,326~216; 3,439,523;
3,631,707 and 3,867~944. Instrumen~s of this type, however, are used in a pliers-like fashion to clamp clips about tubular vessels and the like.
Heretofore, prior art workers have developed many types f cartridges Eor surgical staples. U.S. Patent 37618,842 teaches a surgical staple cartridge in whlch t'ne staples are fed by a twin screw arrangement. A ratchet-driven surgical staple cartridge is described in U.S. Patent 3,638,847. In U.S. Patent 3,650,453 a surgical staple cartridge is taught wherein the staples are belt-Eed.
Finally, in U.S. Patent 4,043,504 there is described a surgical staple cartridge wherein the staples are spring-fed.
These prior art surgical staple cartridges, of which the above noted patents are exemplary only, are generally characterized by complex construction and numerous moving parts. As a result, the opportunity for jamming or misforming of the surgical staples is increased. Such cartridges are normally mounted on the surgical stapling instrument itself. ~ue to their complex construction and bul~iness they further impede the surgeon's visibility and render it more diicult to accurately locate a surgical staple and see it being formed in the tissue.
Many of the above noted U.S. Patents dealing with instruments for applying ligator clips teach magazines ~Eor such clips which are wholly separate -Erom the instruments themselves. Such magazines, however, are no~ suitable for use with surgical staples since surgical staples rnus~ be grasped in a different manner so that they can be clinched about an anvil surface, rather than simply being clamped shut, as in the case of ligator clips.
The above noted U.S. Patent 3~278,107 teaches a surgical staple cartridge wholly separate from the applying instruments. In this instance, however, the cartridge is an elongated rectangular hollow member containing a plurality of spring-advanced capsules or housings, each containing a surgical staple. The stapling instrument engages and remo-ves from the cartridge both a surgical staple and the capsule or housing contalning it.
The present invention is directed to a surgical stapling sys~em comprising a surgical stapling instrument and a wholly separate ~staple-carrying cartridge there~or.
The surgical stapling instrument ltself is of very simple six-piece construction. It provides a staple pick-up and locking feature. The lnstrument is of sturdy~
light weight, permanent construction capable of sterilization by any of the well known methods, and is virtually maintenance ~ree. The instrument provides excellent visibili~y, enabling the entire staple to be seen with the result that accurate placement is very simple to achieve. The instrument cannot jam or misform the staple.
The instrument ca~ be completely assembled and disassembled in a ma~ter of seconds without the use o~
tools. Finally, the instrument is adaptable to many 3o diEferent staple sizes.
The cartridge of the present inventlon is characterized by a very simpLe one-piece molded construction. Tlle number of staples to be held in the cartridge is limited only by a practical and convenient length for the cartridge. The design itself is such that the size oE
s~aple to be housed in it and ~he wire size of ~he staple are not limiting Eactors.
The car-trldge and the staples it contains may be ~.
sterilized or resterilized by any of the conventional methods. The cartridge lends it~elf well to a wide range of pre-sterile packaging.
The one-piece cartridge can be molded of appropriate plastic material in a variety of colors. Thus, the cartridge could be color-coded for quick identi~ication of the size oE the staples contained therein. The surgeon can readily ascertain at a glance how many staples remain in the cartridge at any given time. The cartridge may be provided with a pressure sensitive adhesive means on its bottom surace so that it can be removably affixed to any appropriate support, eliminating the necessity for ~he surge,on to hold the cartridge in his hand during the staple suturing procedure. Al~ernatively, the bottom of the cartridge may be con~igured to fit into an appropriate weighted base.
The cartridge of the present invention has means assuring that the anvil portion o~ the surgical stapling instrument will be properly centered under the crown o~
each surgical staple. Since the staples are held in place in the cartridge by an interference fit between the outer surfaces of the staple legs and the vertical inner surfaces of the ends of the staple slots, the cartridge can readily be shipped in a filled condition and will, nevertheless, provide for easy and positive removal o~ the ~taples from the cartridge. Finally, the cartridge is easily and inexpensively manu~actured and, aEter use, the cartridge provides minimal disposable waste.
DISCLOSURE OF THE INVENTION
According to the invention there is provided a surgical stapling sy~stem comprising a surgical stapling instrument and a staple-carrying cartridge thereEor. The surgical ;3 8 ~ L~
stapling instrument comprises a pliers-like instrument having first and second handles pivotally joined to~ether.
The first handle has an elongated, downwardly dependlng nose portion which terminates at its lowermost end in an anvil having an anviI surface. A staple former is slidably ~ounted on the nose portion of the first handle and is axially shiftable therealong by the second handle between a normal or a retracted position and a staple-forming position. Each of the handles has a leaf spring mounted thereon. The leaf springs cooperate to urge the handles apart and bias the former to its normal position.
Portions of the leaf springs additionally cooperate to lock the former in a staple gripping position~ This enables the instrument to extract a staple from the cartridge and lock it in proper position on the instrument anvil in preparation for forming and implanting in the skin or fascia of the patient.
The surgical staple-carrying cartridge of the present invention comprises a simple, one-piece, integral, elongated member which may be molded of any appropriate plastic material suitable for use in a surgical environment and capable of being sterilized by one or more of the well-known sterilization procedures. The cartridge comprises an elongated, substantially rectangular member having sides, ends, and top and bottom surfaces. A
plurality of transversely extending slots are formed in the upper surface of the cartridge in parallel-spaced relationship. The slots are vertically oriented -Ln the cartridge and the ends of each slo~ are vertical. A
conv~ntional surgical staple of inverted IJ-shaped configuration, having downwardly depending legs and a crown portion extendlng therebetween, is located in each of the transverse slots. The slots are so si~ed with respect to the staples that the vertical ends oE each slot frictionally engage the legs oE the surgical staple located therein. The slots are of such depth that the crowns oE the staples located therein are parallel to and spaced slightly below the top surface of the cartri~e so as to be wholly contained therein.
The top surface of the cartridge has a groove o~
T-shaped cross section formed therein. The groove extends longitudinally and centrally of the cartridge throughout i~s length. The groove is oE such width and depth as to receive the anvil por~ion of the surgical stapling ~o instrument enabling the anvil sur:Eace oE the instrument to be located beneath the crown of the endmost staple in the cartridge so that the staple can be engaged between the anvil surface and the former and thus extracted from the cartridge by the surgical stapling instrument. The tran5verse staple-containing slots of the cartrldge are so spaced from each other such that each staple may be extracted in its turn Erom the cartridge without disturbing the next adjacent staple in the cartridge. ~he longitudinal groove in the cartridge assures that the - 20 instrument anvil is centered with respect to the crown of each staple extracted.
BRIEF DESCRIPTION OF THE DRAWIN~S
Figure 1 is a side eleva~ional view of the surgical stapling instrument of the present invention shown in its normal position.
Figure 2 is a side elevational view, partly in cross section, again showing the instrument in l~s normal position.
Figure 3 is a cross sectional view oE the first handle o the instrument o Figure l.
Figure 4 is a cross sectional view taken along section line 4-4 of Figure 3.
Figure 5 is a cross sectional view taken along section line 5-S of Figure 3.
Figure 6 is a Eront elevational view oE the surgical stapling instrument formerO
Figure 7 ls a side elevational view of the Eormer o~
Figure 6. ~.
Figure 8 is a rear elevational view of the former of Figure 6.
Figure 9 is a plan view of the second handle of the surgical stapling instrument.
Figure lQ is a plan view of the pivot pin and keeper assembly of the present invention.
Figure ll is a side elevat;onal view of the pivot pin and keeper assembly of Figure 10.
Figure 12 is an end eleva~ional view of the pivo~ pin and keeper assembLy, as seen from the right in Figure 11.
Figure 13 is an elevational view of the surgical stapling instrument, partly in cross section, illustrating the instrument in its staple pick-up and lock position.
Figure 14 is a side elevational view of the surgical stapling instrument, partly in cross s~ction, illustrating the instrument in its closed (staple-formed) position.
Figure 15 is a top plan view of the surgical staple cartridge of the present invention.
Figure 16 is a longi.tudinal cross sectional view taken along section line 16-16 of Figure lS.
Figure 17 is a transverse cross sectional view taken along section line 17-17 of Figure 15.
Figure 18 is an enlarged elevational view, partly in cross section, illustrating the nose portion oE the surgical stapling instrument in position to withdraw a surgical staple from the cartridge.
Figure 19 is a transverse cross section view of the cartridge, illustrating the nose portion of the surgical s~apling instrument in the same position shown in Figure 18.
Figure 20 is a fragmentary cross section view, simîlar to Figure 18, i.llustrating engagement of the staple by the surgical stapling instrument: l~etween its anvil surface and lts Eormer i.mmediately prior ~o removal oE tlle staple from the cartridge. `~.
Figure 21 is a :Eragmentary partial cross sectional 5 view, similar to Figure 19, illustrating the parts in the same relative position shown in Fi~;ure 20.
Figure 22 is a fragmen~ary elevational view, partly in cross section, illustratin~ the lmplanting and forming of a surgical staple in the skin or fascia o~ a patient.
Figure 23 is a :Eragmentary elevational view, partly in cross section, illustrating the staple a~ter having been ~ormed and implanted in the skin of a patient.
Figure 24 is a fragmentary cross sectional elevational view illustrating the locking tab oE the spring affixed to 15 the first handle in its normal position within the H-shaped perforation in the spring affixed to the second handle .
Figure 25 is a ~ragmentary elevational view oE the structure of Figure 24 as seen from the right of that 20 Figure.
Figure 25 is a ragmentary bottom view of the structure of Figure 24.
Figure 27 is a ~ragmentary, cross sectional, elevational view, similar co Figure 24, illustrating the 25 locking tab in locked position.
Figures 28 and 29, similar to Figures 25 and 26, respectively, illustrate the locking tab in locked positio~.
Figures 30, 31 and 32, equivalent to Figures 24, 25 and 3o 26, respectively, illustrate the parts in their relative positions immediately prior ~o the ins~rument achieving its fully closed (staple-formed) position shown in Figure 14.
Figures 33, 34 and 35, equivalent to Figures 24, 25 and 3S 26, respectively, illustrate the relative position of the parts when the instrument is in its fully closed (staple-~ormed) position as shown in Figure 1-4.
DETAILED DESCRIPTION OF THE INVENTION ~
The surgical stapling system of the present invention comprises a surgical stapling instrumen~ and a staple-carrying cartridge therefor. For purposes of clarity, the surgical stapling instrument will -first be described. In all o$ the Figures, like parts have been given like index numerals.
Reference is first made to Figures 1 and 2, wherein the surgical stapling ins-trument is generally indicated at 1.
The surgical stapling instrument is ~ade up of six basic parts: a first or upper handle 2, a second or lower handle 3, a pivot pin and keeper assembly 4, a former 5, an upper spring 6 affixed to the upper handle 2 and a lower spring 7 affixed to the lower 'nandle 3~
Attention is directed also to Figures 3 and 4 wherein the upper handle 2 is shown in greater detail. The upper handle 2 has a handle portion 8 adapted to be grasped by the hand o the surgeon, a central body portion 9, and an elongated downwardly depending nose portion 10. The central body portion 9 has a slot ll extending theretl~rough, dividing the central portion 9 into two parts or wall portions 9a and 9b in parallel spaced relationship (see Figure 4). Each of the parts or walls 9a and 9b has a slot formed therein, as shown at l2 and 13, respectively. The slots 12 and 13 extend in the general direction of the nose portion 10, as is evident from Figures 3 and 4. The walls 9a and 9b have a pair of 3o coaxial perforations formed therein, one of which is shown at 14 in Flgure 3. These perforations are adapted to receive a pivot pin, as will be described hereinaEter.
The elongated nose portion 10 provides a flat forward face 10a which is coextensive with and coplanar with the forward edges 9c and 9d of wall portions 9a and 9b, 'L~
respectively. Near its lower end, the nose portion lO is provided with a Eorwardly extending lug 15 o~ T-shaped cross sec~ion (see Figure 4). ~
Nose portion lO terminates in a Eorwardly extending anvil 16 having an anvil surEace 17 and a downwardly depending flange or keel 1~ (see Figures 13 and 19), the purpose of which will be described hereinafter.
The former 5 of the sur~ical stapling instrument is illustrated in Figures 6 ~hrough 8. The former comprises an elongated member having a front surface l9 and a flat rear surface 20. Mear its upper end, the former has a narrow rectangular perforation or window 21, extending from the rear surEace 20 through the fron~ surface 19.
The purpose of window 21 will be evident hereinafter.
Extending rearwardly o-f surface 20, near the upper end oE
the former and jus~ below the window 21, there is a lug 22 of T-shaped cross section. The flanges of lug 22 are adapted to be slidably received in the slots 12 and 13 o:E
upper handle 2 (see Figure 4). Extending from its lowermost end, longitudinally o:~ the former, there is a slot 23 of T-shaped cross section. The slot 23 is adapted to slidably receive the lug 15 on nose portion ln of upper handle 2. In this fashion~ the engagement of former lug
2~ in the slots 12 and 13 of upper handle 2 and the engagement of lug lS of handle 2 in the T-shaped slot 23 of the former enable the former to be removably mounted on the Eront surface lOa of upper handle 2 and to be shiftable vertically thereon between a normal or retracted position and a lower staple-forming position, as will be further described hereina~ter.
The lower or second handle 3 i~s clearly shown în Figures 2 and 9. The lower handle 3 comprises a handle portion 24 adapted to be grasped by the 'nand of the surgeon. At its forward end, the lower llandle 3 terminates in a narrow element 25, the Eorwardmost portion q~
ll - 26 oE whicll is substantially circular, as seen in Figure 2. At the Juncture o narrow portion 25 and the handle portion 24, the lower handle 3 has a pair of arcuat~
shoulders 27 and 28 which generally con-form to the arcuate 5 configuration o~ walls 9a and 9b in the area of the pivot pin perforations therein (see Figure 3). The shoulders 27 and 28 terminate in a transverse stop surEace 29. The stop surface 29 cooperates with a similar stop surface 30 on upper handle 2 (see Figure 2) to determine the openmost position of lower handle 3 (again as is shown in Figure 2). The portion 25 of lower handle 3 has a transverse perforation 31 therethrough, adapted to receive the pivot pin, as will he described hereinafter.
Figure 2 illus~rates the former 5 mounted on the nose portion 10 of upper handle 2. This Figure also illustrates the lower handle 3 mounted in place. The lower handle 3 is pivotally mounted to upper handle- 2 by means of pivot pin 32 which passes throu~h the perEorations in upper handle 2 (one of which is shown at 14 in Figure 3) and the perforation 31 in portion 25 of lower handle 3. It will be noted from Figure 2 that the circular portion 26 of lower handle 3 is just nicely received in the window 21 of former 5. It will therefore be evident tha~ when lower handle 3 is shifted toward upper handle 2, its circular portion 26 will cause the former 5 to shift Erom its normal position shown in Figure 2 downwardly toward anvil 16. ~hen the lower handle 3 returns to its normal position shown in Figure 2, its circular portion 26 will shift the former 5 to its retracted or normal position, as shown.
The pivot pin and keeper assembly 4 is most clearly illustrated in Fi~ures 10 through 12. The keeper comprises a spring metal clip 33. The spring metal clip 33 has a first ~lat disk-like portion 34 with a central perEoration 35 therethrough. The disk-like portion 34 has a la~erally extending arm portion 36 which terminates in Q
transversely extending hook-like portion 37.~ One end of pivot pin 32 is oE lesser diameter and is adapted t~.
extend through the perforation 35 ln the disk~like portion 34 of the clip 33. That portion extending through perforation 35 is rive~ed as at 38 to permanently aEEix pivot pin 32 to the cllp 33.
As is most clearly shown in Figure l, when lower handle
The lower or second handle 3 i~s clearly shown în Figures 2 and 9. The lower handle 3 comprises a handle portion 24 adapted to be grasped by the 'nand of the surgeon. At its forward end, the lower llandle 3 terminates in a narrow element 25, the Eorwardmost portion q~
ll - 26 oE whicll is substantially circular, as seen in Figure 2. At the Juncture o narrow portion 25 and the handle portion 24, the lower handle 3 has a pair of arcuat~
shoulders 27 and 28 which generally con-form to the arcuate 5 configuration o~ walls 9a and 9b in the area of the pivot pin perforations therein (see Figure 3). The shoulders 27 and 28 terminate in a transverse stop surEace 29. The stop surface 29 cooperates with a similar stop surface 30 on upper handle 2 (see Figure 2) to determine the openmost position of lower handle 3 (again as is shown in Figure 2). The portion 25 of lower handle 3 has a transverse perforation 31 therethrough, adapted to receive the pivot pin, as will he described hereinafter.
Figure 2 illus~rates the former 5 mounted on the nose portion 10 of upper handle 2. This Figure also illustrates the lower handle 3 mounted in place. The lower handle 3 is pivotally mounted to upper handle- 2 by means of pivot pin 32 which passes throu~h the perEorations in upper handle 2 (one of which is shown at 14 in Figure 3) and the perforation 31 in portion 25 of lower handle 3. It will be noted from Figure 2 that the circular portion 26 of lower handle 3 is just nicely received in the window 21 of former 5. It will therefore be evident tha~ when lower handle 3 is shifted toward upper handle 2, its circular portion 26 will cause the former 5 to shift Erom its normal position shown in Figure 2 downwardly toward anvil 16. ~hen the lower handle 3 returns to its normal position shown in Figure 2, its circular portion 26 will shift the former 5 to its retracted or normal position, as shown.
The pivot pin and keeper assembly 4 is most clearly illustrated in Fi~ures 10 through 12. The keeper comprises a spring metal clip 33. The spring metal clip 33 has a first ~lat disk-like portion 34 with a central perEoration 35 therethrough. The disk-like portion 34 has a la~erally extending arm portion 36 which terminates in Q
transversely extending hook-like portion 37.~ One end of pivot pin 32 is oE lesser diameter and is adapted t~.
extend through the perforation 35 ln the disk~like portion 34 of the clip 33. That portion extending through perforation 35 is rive~ed as at 38 to permanently aEEix pivot pin 32 to the cllp 33.
As is most clearly shown in Figure l, when lower handle
3 is proparly located in upper handle 2 with its perforation 31 aligned with the perforations in upper handle 2 (one of which is shown a~ 14 in Figure 3), pivot pin 32 may be caused to enter the aligned perforations to pivotally join lower handle 3 to upper handle 2. Once the pivot pin 32 has been fully s~ated, the lceeper clip 33 may be rotated until its arm portlon 36 lies along upper handle 2 and its hook-shaped portion 37 engages upper handle 2 with a snap Eit. This arrangement of parts releasably maintains the pivot pin 32 in place.
With lower handle 3 pivotally affixed ~o upper handle 2, pivoting of lower handle 3 toward and away from upper handle 2.will, as explained above, resuLt in shifting of former 5 between its normal retracted posltion and its lower staple-formi.ng position. Leaf springs 6 and 7 are provided to bias lower handle 3 to its openmost position as determined by the abutment oE stop surface 29 of lower handle 3 agalnst stop surface 30 of upper handle 2 (see Figures 1 and 2) and thus bias the former 5 to its retracted or normal posltion. LeaE spring 6 is removably attached to the underside oE upper handle 2. LO this end, upper handle 2 is provided with a headed stud 39 the head of which is spaced from the underside of upper handle 2 by a distance subs~antially equal to the thickness oE lea.E
spring 6 (see Figure 5). Lea:E spring 6 is provided with an elongated, tapered perforation (not shown), a first part of which is so sized as to permit passage oE the head 3~
of stud 3~ therethrough, and a second part of which ls of lesser width t~an the hea~ of stud 39 so that~the spring can be releasably engaged by stud 39 and thereby ~
releasably attached ~o the underside oE upper handle 2.
LeaE spring 7 is similarly releasably attached to the upper side oE lower handle 3 by means of a headed stud 40 and an elongated per-Eora~ion in the spring (not shown).
A~ its forwardmost end, leaE spring 6 is provided wlth a slot 41 ~see Figure 2), while leaf spring 7, at its forwardmost end, is provided with a ~ongue 42 receivable within ~he slot 41 of leaf spring 6. This arrangement acts as a hinge and enables leaE spring.s 6 and 7 to bias handle 3 to its openmost position. In addition, leaf spring 7 has a downwardly depending stud 43 received in a spring aligning hole 44 in the upper surface oE handle 3.
This arrangement maintains botlt leaE spring 7 and leaf spring S properly aligned, and prevents rotation of these leaf springs about ~heir respective studs 39 and 40. The rearwardmost ends of lea~ springs 6 and 7 may be provided with a locking arrangement, the natur,e and purpose of which will be described herinaEter.
All of the six basic parts o~ the instrument l can be made oE stainless steel or other appropriate material suitable for use in a surgical environment and capable of being autoclaved repeatedly by any conventional means. It will be understood from the above description that the instrument can be completely assembled and disassembled in seconds, without the use oE tools, for purposes of thorough cleaning. For example, to disassemble the 3~ instrument 1 of Figures 1 and 2 it is only necessary to remove the 'detachable leaE springs 6 and 7. The hook-like portion 37 of pivot pin keeper assembly 4 is released from upper handle 2 and rot'ated ln a co-unterclockwise direction (as viewed in Figure 1). At this point pivot pin 32 can be removed from handles 2 and 3, permittlng lower handle 3 to be disenga~ed from upper handle 2 and former 5. Former 5, in turn, can be removed from the body portion 9 and nose portion 10 oE upper handle 2 by simply shifting~it vertically upward (as viewed in Figure 1~, therehy releasing the T-shaped lug 15 of nose portion 10 from the T shaped slot 23 of former 5 and at the same time releasing the T-shaped lug 22 of former 5 ~rom slo~s 12 and 13 in the body portions 9a and 9b o~ upper handle 2.
For purposes of reassembly, the,e steps are simply 10 reversed.
ReEerence is now made to Figures 15, 16 and 17, which most clearly illustrate t'ne cartridge o~ the present invention. The cartridge is genera]ly indicated at 45 and comprises a substantially rectangular, elongated member having s;des 46 and 47, ends 48 and 49, a top surface 50 and a bottom surface 51. Cartridge 45 is preferably an integral one-piece element molded of plastic material suitable for use in a surgical environmen-t and capable o~
being sterilized by at least one of the well-known methods. Cartridge 45 is provided with a plurality of identical transverse slots 52. Slots 52 extend downwardly from the top surface 50 oE the cartridge and are arranged in parallel spaced relationship. One of the slots 52 is illustrated in Figure 17. It will be noted that slot 52 has vertically oriented ends 52a and 52b and a horizontal bottom 52c.
Cartridge 45 is also provided with a central longitudinal groove 53, extending the length of the cartridge. As can most easily be seen in Figure l7, the 3o longitudinal groove 53 has a T-shaped cross section. As a result, groove 53 has upper side w~lls 53a and 53b, a pair of horizontal surEaces 53c and 53d, a pair of lower side walls 53e and 53~, and a horlzontal bottom 53g. The lo-~er side walls 53e and 53f meet horizontal surfaces 53c and 53d in beveled sur~aces 53~ and 53i, respectively.
Figure 19 is a Figure similar to Figure l7 and illustrates a staple located wlthin a transve-rse slot 52 of cartridge 45. The staple is generally indlcated~t 54.
The staple has a crown portion 55 terminating at its ends in downwardly depending legs 55 and 57. Legs 56 and 57 may be cut on an angle as at 58 and 59, respectively, to render them pointed.
It will be noted from Figure 19 that slot 52 is oE such depth that crown 55 oE staple 54 is parallel to and lies just below the top surface 50 of cartridge 45 so that staple 54 is completely contained within the cartridge.
Staple 54 is maintained within transverse slot 52 of cartridge 45 by virtue of a frictional engagement between staple legs 56 and 57 and the adjacent vertical ends 52a and 52b oE the slot 52.
As will be evident from Figures 18 and 19, the lower part of the instrument nose portion 10 is oE a widtll and configuration such as ~.o be just nicely received within the upper portion of cartridge groove 53, defined by groove upper side walls 53a and 53b and groove horizontal surfaces 53c and 53d. The lug or keel 18 oE anvil 16 is intended to be received in the lower portion of the longitudinal cartridge groove 53, as defined by side walls 53e and 53f and horizon~al bottom 53g.
As can most clearly be seen iM Figures 8 and 19, the lower end oE staple former 5 (on its rear surface 20 and at t'ne bottom end of T-slot 23) is provided with a staple~forming notch 60. ~s can best be seen in Figure 19, notch 6n has an upper horizontal sur:Eace 60a, parallel to ~nvil surEace 17 and a pair oE vertical surfaces 60b and 60c which are spsced from each other by a distance greater than the width of anvil surface 17 so that portions of the staple 54 can be accommodated therebetween during the sta~le forming procedure, as will be evident hereinafter. It will be noted in Figure 19 that the lowermost ends of vertical surfaces 60b and 60c curve downwardly and outwardly as at 6nd and 60e, respectively.
The surgical stapling instrument 1 and the cartr~dge 45 of the present invention having been set Eorth in detail above, their use may be described as follows. The cartridge 45 will come to the surgeon in filled and sterilized condition. When the staple suture procedure is to be perEormed, the surgeon need only insert the lower end of instrumellt nose portion 10 in one end or the other of the longitudinal groove 53 of cartridge 45. T~e lower end of nose portion 10 is so positioned that an~Til surEace 17 oE anvil 16 is loca-ted beneath the crown 55 of the first staple 54 in cartridge 45. As will be evident from Figures 15, 16 and 18, the transverse staple-receiving slots 52 are so spaced from each other ~hat when anvil 16 is located beneath the crown 55 oE a staple 54, it will remain spaced Erom and out o~ contact with the next succeeding staple in the row. Anvil 16 is s~oved beneath staple crown 55 within lonvitudinal cartridge groove 53 until crown 55 abuts the forward surEace lOa of the instrument nose portion 10. Since the lower end of nose por~ion 10 is just nicely received within the upper portion of longitudinal cartridge groove 53, the surgeon can be assured that anvil 16 and its anvil surface 17 are properly centered beneath staple crown 55.
The surgeon next squee~es handles 2 and 3 of instrument 1, causing handle 3 to shift toward its actuated position by an amount sufficient to cause the lower end of staple Eormer 5 to cont.act and slightly bend the crown portion 55 of a staple 54. This is illustrated in Figures 20 and 21.
It will ~e noted in Figure 21 that the slight bend imparted to staple crown 55 will cause staple legs 56 and 57 to shift slightly inwardly, releasing them from their frictional engagement with ends 52a and 52b oE transverse slot 52 within which staple 54 is located. Figure 21 illustrates the lower end of nose portion lO of surgical stapling instrument 1 as it is being liEted ou~ of cartridge 45 in the direction of arrow A. The same ~s true of Figuxe 20. When the surgical stapling instrument l grasps staple 54 as shown in F;gures 20 and 21, the surgical staple instrument parts assume the relative positions illustrated in Figure 13.
~i~h staple 54 ln the condition illustrated in Figure 21, gripped between staple former 5 and the anvil surface 17, the surgeon rnay use the surgical stapling instrument 1 to liEt t~e staple completely out o cartridge 45 and to transfer it to the wo-und in the skin or fascia of tlle patient. Surgical stapling instrument 1 is then centered over the woun~ with the downwardly depending lug or keel 18 of nose portion 10 extending into t'ne woundO Upper handle 2 may then be completely shiEted to its fully actuated position. This causes staple former 5 to move downwardly to its lowermost or staple-forming position.
Reerence is now made to Figure 22, w~ich illustrates a surgical staple 54 in its formed and implanted condition a~ the point where staple Eormer 5 has achieved its lowermost or staple-~orming position. In Figure 22, a patient's skin is illustrated at Sl ha~ing a wound or incision 62 therein. It will be noted that the downwardly depending lug or keel 18 of nose portion 10 is located within wound or incislon 62 to prevent overlapping of tissue edges during the surgical stapling procedure.
Staple Eormer 5 has achieved its lowermost position with the result that sides 60b and GOc of the staple-forming 33 notch 60 have càused portions 63 and 64, respectively, oE
staple crown 55 to be bent downwardly about anvil surface 17. As a result, staple legs 56 and 57 have been implanted in the slcin 61 of the patient and have achieved a position wherein they are substantially diametrically opposed. When the staple is fully formed and implanted, l3 the parts of surgical stapling instrument 1 achieve the relative positions illustrated in Figure 14.
When lower handle 3 is permitted to return to it~;
normal position (under the in~luence o~ cooperating leaE
springs 6 and 7), this will result in the return of staple former 5 to its retracted or norrnal position, out of engagement with staple 54. Anvl] 16 and its anvil surface 17 may then be slipped out from under staple 549 leaving the fully formed and implanted staple in the condition shown in Figure 23.
At ~his point, the surgeon may reinsert the lower end o~ nose portion 10 o~ surgical stapling instrument 1 into longitudinal groove 53 of cartridge 45 to extract therefrom the next succeeding staple 54 in the same manner just described. The next staple 54 may then be ~ormed and ;mplanted in the manner taught with respect to Figures 22 and 23. The procedure may be repeated until wound or incision 62 has been comple~ely sutured.
It will be evident from the description above that cartridge 45 of the present invention is of such nature that the surgeon can alway ascertain at a glance how many staples remain in the cartridge. It will be evident that the cartridge may be made ~o hold any number oE staples, limited only by practical length oE the cartridge. By appropriately sizing transverse slots 52, the cartridge can be made to hold any size staple of any wire size. To this end, the cartridge can be molded oE colored plastic material, and therefore could be color coded or any appropriate reason, such as to indicate at a glance the size oE the staple contained within the cartridge, or the initial number oE staples contained within the cartridge.
It is within the scope of the present invention to provide the bottom sur~ace 51 of the cartridge with an adhesive layer~ a pressure sensitive adhesive layer, or the like. Such an adhe~ive layer is illustrated at 65 in Figures 16 through 21. Adhesive layer 65 permits the surgeon to temporarily attach cartridge 45 t~ the back of his hand, to a portion of a patient near the wound being suturedg to a portion o the operating table, or to any other suitable surface. This eliminates the necessity or the surgeon to hold the cartridge in his hand during the surgical stapling procedure. As an alternative, bottom surface 51 of the cartridge could be so configured as to fit in a weighted base (not shown) of stainl.ess steel or some other material suitable for use in a surgical environment.
For purposes of convenience, surgical stapling instrument 1 of the present invention may be provided with a locking system to automatically lock the former in its staple-gripping position illustrated in Figures 13, 20 and 21. Thus, once ~he surgeon has gripped and extracted a staple 54 from cartridge 45, he need not maintain pressure on lower handle 3 while the tissue is approximated to make ready for staple placement. Furthermore, with such a locking system, an assistant could locate a staple on anvil surface 17 of surgical stapling instrument 1 and hand the "loaded" surgical stapling instrument to the surgeon for staple forming and implanting.
To this end, reference is made to Fi.~ures l, 24, 25 and 26. As is shown in these Figures, the rearward ends o~
lea~ springs 6 and 7 can be configured to provide the desired lockillg system.
As is most clearly sho-wn in Figure 1, leaf spring 6 has a first rearward portion 6a which curves downwardly Erom the end of upper handle 2. LeaE spring S has a second portion 6b, angularly related to portion 6A, and substantially planar.
At the juncture of portions 6a and Sh there is a pair of opposed notches 66 and 67 with the result that th~
portion of leaf spring 6 located between notches 66 and 67 o~J ~ P~
is o~ diminished width. Notches 66 and 67 will be referred to hereinafter as the transEer notches. At the free end of the portion 6b of leaE spring 6 a secon~pair of opposed notches 68 and 69 are provided ('nereinaEter re~erred to a,s reset notches) and resulting in the fact that the end~ost portion of lea-E spring 6 is of about the same width as that portion lying between transfer notcnes 66 and 67. Just above reset notches 68 and 697 a locking tab 70 is formed ln the spring portion 6b by simply offsetting a part of portion 6b. This is clearly shown, for example, in Figure 24.
Leaf spring 7 has a substantially planar end portion 7a which extends beyond the end o-f lower handle 3. Spring portion 7a has an H-shaped perforation Eormed transversely therein and generally indicated at 71 in Figure 26. The leg of the H-shaped perEoration nearest the end of lower handle 3 is indicated by index numeral 72 and will hereinafter be referred to as the former track. Former track 72 is of a length slightly greater than the maximum width o;E the portion 6b oE leaf spring 6. That leg o~
H-shaped per~ora~ion 71 whic'n is remote Erom the end of lower handle 3 is indicated by index numeral 73 and will hereinafter be referred to as the by-pass track. By-pass track 73 is oE a lengtl- equal to the leng~h of form~r track 72. That portion of H-shaped perforation 71 Located between Eormer track 72 and by-pass track 73 is indicated by index mlmeral 74 and will hereinafter be referred to as the transfer slot. TransEer slot 74 i.s of a width les~s than the maximum width of portlon 6b of leaf spring 6, bu-t greater than the wldth of those portions oE leaf spring 6 located between transfer notches 66 and 67 and reset notches 68 and 69.
The above described rearward ends of lea~E spring 6 and 7 constitute the locki.ng system of the present invention.
Their operation may be clescribed as follows. I~hen the surgical stapling instrument l is in its normal, unactuated condition, as illustrated in Figures 1 and 2, the narrow end of por~lon 6b of lea~ spring 6 locat~d between reset notches 6~ and 69 will normally extend`into Eormer track 72 of spring portion 7a. The configuration of leaf spring 6 and its portions 6a and 6b is such that the lowermost end of portion 6b is constantly biased toward the end of lower handle 3. This is shown in Flgures 24, 25 and 26.
When the lowermos~ end of nose portlon 10 of instrument 1 is inserted into cartridge 45 wlth anvil surface i7 located beneath the crown 55 of a surgical staple 54 (as shown in Figures 18 and 19), and when the surgeon or his assistan~ squeezes lower handle 3 to cause the staple 54 to be grasped between former 5 and anvil surface 17 (as shown in Figures 20 and 21), th:is movement of lower handle 3 will cause locking tab 70 on spring portion 6b to pass through former track 72 and to engage the underside of portion 7a of spring 7. This engagement of spring portion 7a by locking l:ab 70 will cause the staple to be locked in tl~e position shown in Figures 20 and 21 and the surgeon or his assistant need no longer apply pressure to lower handle 3. The relative positions of the parts are clearly illustrated in Figures 13, 27, 28 and 29.
During the forming and implanting procedure, as lower handle 3 is rotated about its fixed pivot point, the configuration o~ leaf spring 6 and its portions 6a and 6b is .such that portion 6b will ~e urged toward the by-pass track 73, but will be trapped in t'ne former track 72 since it cannot pass through the narrower transEer slot 74. As a result, leaf spring 6 will ride the rearward edge of former traclc 72 as shown in Figures 30, 31 and 32.
~owever, when the surgical staple is fully :~ormed and implanted, portion 7a of lea:E spring 7 will Einally reach the transfer notches 66 and 67 in portion ~b of leaf spring 6. Transfer notcl~es 66 and 67 will enable leaf spring 6 to pass from the Eormer track 72 through transfer slot 74 and into by-pass track 73. This is shown i~
Figures 14, 33, 34 and 35.
After the stapling procedure, whe.n the surgeon releases lower ~andle 3, spring portion 7a will s]ide down portion 6b of leaf spring 6 via by-pass track 73. The configuratlon of leaE sprin~ 6 and its portions 6a and 6b is such that as by-pass track 73 slides down portion 6b, portion 6b will be urged toward former track 72, but will be trapped in by-pass track 73 since it cannot pass through the narrower transfer slot 74. The width of locking tab 70 is such, however, that it can pass ~hrough transfer slot 74. As soon as reset notches 68 and 69 enter by-pass track 73, they will permit leaf spring 6 to pass from by-pass track 73 through transEer slot 74 to Eormer track 72. Thus, por-tion 6b reassumes its normal position illustrated in Figures 1, 24, 25 and 26 and is ~herefore in position for the stapling procedure to be repeated.
In the above description and in the claims, terms such as "downwardly depending", "vertical", "upper handle", "lower handle", "top surface'l, "bottom surface" and the like are used to describe the instrument and its cartridge in relation to the drawings for purposes of clarity. It will be unders~ood that, in useS the instrument and its cartridge can assume any orientation necessary for the particular suturing procedure being practiced at a given time.
Modifications may be made in the invention without departing from the spirit o~ it.
With lower handle 3 pivotally affixed ~o upper handle 2, pivoting of lower handle 3 toward and away from upper handle 2.will, as explained above, resuLt in shifting of former 5 between its normal retracted posltion and its lower staple-formi.ng position. Leaf springs 6 and 7 are provided to bias lower handle 3 to its openmost position as determined by the abutment oE stop surface 29 of lower handle 3 agalnst stop surface 30 of upper handle 2 (see Figures 1 and 2) and thus bias the former 5 to its retracted or normal posltion. LeaE spring 6 is removably attached to the underside oE upper handle 2. LO this end, upper handle 2 is provided with a headed stud 39 the head of which is spaced from the underside of upper handle 2 by a distance subs~antially equal to the thickness oE lea.E
spring 6 (see Figure 5). Lea:E spring 6 is provided with an elongated, tapered perforation (not shown), a first part of which is so sized as to permit passage oE the head 3~
of stud 3~ therethrough, and a second part of which ls of lesser width t~an the hea~ of stud 39 so that~the spring can be releasably engaged by stud 39 and thereby ~
releasably attached ~o the underside oE upper handle 2.
LeaE spring 7 is similarly releasably attached to the upper side oE lower handle 3 by means of a headed stud 40 and an elongated per-Eora~ion in the spring (not shown).
A~ its forwardmost end, leaE spring 6 is provided wlth a slot 41 ~see Figure 2), while leaf spring 7, at its forwardmost end, is provided with a ~ongue 42 receivable within ~he slot 41 of leaf spring 6. This arrangement acts as a hinge and enables leaE spring.s 6 and 7 to bias handle 3 to its openmost position. In addition, leaf spring 7 has a downwardly depending stud 43 received in a spring aligning hole 44 in the upper surface oE handle 3.
This arrangement maintains botlt leaE spring 7 and leaf spring S properly aligned, and prevents rotation of these leaf springs about ~heir respective studs 39 and 40. The rearwardmost ends of lea~ springs 6 and 7 may be provided with a locking arrangement, the natur,e and purpose of which will be described herinaEter.
All of the six basic parts o~ the instrument l can be made oE stainless steel or other appropriate material suitable for use in a surgical environment and capable of being autoclaved repeatedly by any conventional means. It will be understood from the above description that the instrument can be completely assembled and disassembled in seconds, without the use oE tools, for purposes of thorough cleaning. For example, to disassemble the 3~ instrument 1 of Figures 1 and 2 it is only necessary to remove the 'detachable leaE springs 6 and 7. The hook-like portion 37 of pivot pin keeper assembly 4 is released from upper handle 2 and rot'ated ln a co-unterclockwise direction (as viewed in Figure 1). At this point pivot pin 32 can be removed from handles 2 and 3, permittlng lower handle 3 to be disenga~ed from upper handle 2 and former 5. Former 5, in turn, can be removed from the body portion 9 and nose portion 10 oE upper handle 2 by simply shifting~it vertically upward (as viewed in Figure 1~, therehy releasing the T-shaped lug 15 of nose portion 10 from the T shaped slot 23 of former 5 and at the same time releasing the T-shaped lug 22 of former 5 ~rom slo~s 12 and 13 in the body portions 9a and 9b o~ upper handle 2.
For purposes of reassembly, the,e steps are simply 10 reversed.
ReEerence is now made to Figures 15, 16 and 17, which most clearly illustrate t'ne cartridge o~ the present invention. The cartridge is genera]ly indicated at 45 and comprises a substantially rectangular, elongated member having s;des 46 and 47, ends 48 and 49, a top surface 50 and a bottom surface 51. Cartridge 45 is preferably an integral one-piece element molded of plastic material suitable for use in a surgical environmen-t and capable o~
being sterilized by at least one of the well-known methods. Cartridge 45 is provided with a plurality of identical transverse slots 52. Slots 52 extend downwardly from the top surface 50 oE the cartridge and are arranged in parallel spaced relationship. One of the slots 52 is illustrated in Figure 17. It will be noted that slot 52 has vertically oriented ends 52a and 52b and a horizontal bottom 52c.
Cartridge 45 is also provided with a central longitudinal groove 53, extending the length of the cartridge. As can most easily be seen in Figure l7, the 3o longitudinal groove 53 has a T-shaped cross section. As a result, groove 53 has upper side w~lls 53a and 53b, a pair of horizontal surEaces 53c and 53d, a pair of lower side walls 53e and 53~, and a horlzontal bottom 53g. The lo-~er side walls 53e and 53f meet horizontal surfaces 53c and 53d in beveled sur~aces 53~ and 53i, respectively.
Figure 19 is a Figure similar to Figure l7 and illustrates a staple located wlthin a transve-rse slot 52 of cartridge 45. The staple is generally indlcated~t 54.
The staple has a crown portion 55 terminating at its ends in downwardly depending legs 55 and 57. Legs 56 and 57 may be cut on an angle as at 58 and 59, respectively, to render them pointed.
It will be noted from Figure 19 that slot 52 is oE such depth that crown 55 oE staple 54 is parallel to and lies just below the top surface 50 of cartridge 45 so that staple 54 is completely contained within the cartridge.
Staple 54 is maintained within transverse slot 52 of cartridge 45 by virtue of a frictional engagement between staple legs 56 and 57 and the adjacent vertical ends 52a and 52b oE the slot 52.
As will be evident from Figures 18 and 19, the lower part of the instrument nose portion 10 is oE a widtll and configuration such as ~.o be just nicely received within the upper portion of cartridge groove 53, defined by groove upper side walls 53a and 53b and groove horizontal surfaces 53c and 53d. The lug or keel 18 oE anvil 16 is intended to be received in the lower portion of the longitudinal cartridge groove 53, as defined by side walls 53e and 53f and horizon~al bottom 53g.
As can most clearly be seen iM Figures 8 and 19, the lower end oE staple former 5 (on its rear surface 20 and at t'ne bottom end of T-slot 23) is provided with a staple~forming notch 60. ~s can best be seen in Figure 19, notch 6n has an upper horizontal sur:Eace 60a, parallel to ~nvil surEace 17 and a pair oE vertical surfaces 60b and 60c which are spsced from each other by a distance greater than the width of anvil surface 17 so that portions of the staple 54 can be accommodated therebetween during the sta~le forming procedure, as will be evident hereinafter. It will be noted in Figure 19 that the lowermost ends of vertical surfaces 60b and 60c curve downwardly and outwardly as at 6nd and 60e, respectively.
The surgical stapling instrument 1 and the cartr~dge 45 of the present invention having been set Eorth in detail above, their use may be described as follows. The cartridge 45 will come to the surgeon in filled and sterilized condition. When the staple suture procedure is to be perEormed, the surgeon need only insert the lower end of instrumellt nose portion 10 in one end or the other of the longitudinal groove 53 of cartridge 45. T~e lower end of nose portion 10 is so positioned that an~Til surEace 17 oE anvil 16 is loca-ted beneath the crown 55 of the first staple 54 in cartridge 45. As will be evident from Figures 15, 16 and 18, the transverse staple-receiving slots 52 are so spaced from each other ~hat when anvil 16 is located beneath the crown 55 oE a staple 54, it will remain spaced Erom and out o~ contact with the next succeeding staple in the row. Anvil 16 is s~oved beneath staple crown 55 within lonvitudinal cartridge groove 53 until crown 55 abuts the forward surEace lOa of the instrument nose portion 10. Since the lower end of nose por~ion 10 is just nicely received within the upper portion of longitudinal cartridge groove 53, the surgeon can be assured that anvil 16 and its anvil surface 17 are properly centered beneath staple crown 55.
The surgeon next squee~es handles 2 and 3 of instrument 1, causing handle 3 to shift toward its actuated position by an amount sufficient to cause the lower end of staple Eormer 5 to cont.act and slightly bend the crown portion 55 of a staple 54. This is illustrated in Figures 20 and 21.
It will ~e noted in Figure 21 that the slight bend imparted to staple crown 55 will cause staple legs 56 and 57 to shift slightly inwardly, releasing them from their frictional engagement with ends 52a and 52b oE transverse slot 52 within which staple 54 is located. Figure 21 illustrates the lower end of nose portion lO of surgical stapling instrument 1 as it is being liEted ou~ of cartridge 45 in the direction of arrow A. The same ~s true of Figuxe 20. When the surgical stapling instrument l grasps staple 54 as shown in F;gures 20 and 21, the surgical staple instrument parts assume the relative positions illustrated in Figure 13.
~i~h staple 54 ln the condition illustrated in Figure 21, gripped between staple former 5 and the anvil surface 17, the surgeon rnay use the surgical stapling instrument 1 to liEt t~e staple completely out o cartridge 45 and to transfer it to the wo-und in the skin or fascia of tlle patient. Surgical stapling instrument 1 is then centered over the woun~ with the downwardly depending lug or keel 18 of nose portion 10 extending into t'ne woundO Upper handle 2 may then be completely shiEted to its fully actuated position. This causes staple former 5 to move downwardly to its lowermost or staple-forming position.
Reerence is now made to Figure 22, w~ich illustrates a surgical staple 54 in its formed and implanted condition a~ the point where staple Eormer 5 has achieved its lowermost or staple-~orming position. In Figure 22, a patient's skin is illustrated at Sl ha~ing a wound or incision 62 therein. It will be noted that the downwardly depending lug or keel 18 of nose portion 10 is located within wound or incislon 62 to prevent overlapping of tissue edges during the surgical stapling procedure.
Staple Eormer 5 has achieved its lowermost position with the result that sides 60b and GOc of the staple-forming 33 notch 60 have càused portions 63 and 64, respectively, oE
staple crown 55 to be bent downwardly about anvil surface 17. As a result, staple legs 56 and 57 have been implanted in the slcin 61 of the patient and have achieved a position wherein they are substantially diametrically opposed. When the staple is fully formed and implanted, l3 the parts of surgical stapling instrument 1 achieve the relative positions illustrated in Figure 14.
When lower handle 3 is permitted to return to it~;
normal position (under the in~luence o~ cooperating leaE
springs 6 and 7), this will result in the return of staple former 5 to its retracted or norrnal position, out of engagement with staple 54. Anvl] 16 and its anvil surface 17 may then be slipped out from under staple 549 leaving the fully formed and implanted staple in the condition shown in Figure 23.
At ~his point, the surgeon may reinsert the lower end o~ nose portion 10 o~ surgical stapling instrument 1 into longitudinal groove 53 of cartridge 45 to extract therefrom the next succeeding staple 54 in the same manner just described. The next staple 54 may then be ~ormed and ;mplanted in the manner taught with respect to Figures 22 and 23. The procedure may be repeated until wound or incision 62 has been comple~ely sutured.
It will be evident from the description above that cartridge 45 of the present invention is of such nature that the surgeon can alway ascertain at a glance how many staples remain in the cartridge. It will be evident that the cartridge may be made ~o hold any number oE staples, limited only by practical length oE the cartridge. By appropriately sizing transverse slots 52, the cartridge can be made to hold any size staple of any wire size. To this end, the cartridge can be molded oE colored plastic material, and therefore could be color coded or any appropriate reason, such as to indicate at a glance the size oE the staple contained within the cartridge, or the initial number oE staples contained within the cartridge.
It is within the scope of the present invention to provide the bottom sur~ace 51 of the cartridge with an adhesive layer~ a pressure sensitive adhesive layer, or the like. Such an adhe~ive layer is illustrated at 65 in Figures 16 through 21. Adhesive layer 65 permits the surgeon to temporarily attach cartridge 45 t~ the back of his hand, to a portion of a patient near the wound being suturedg to a portion o the operating table, or to any other suitable surface. This eliminates the necessity or the surgeon to hold the cartridge in his hand during the surgical stapling procedure. As an alternative, bottom surface 51 of the cartridge could be so configured as to fit in a weighted base (not shown) of stainl.ess steel or some other material suitable for use in a surgical environment.
For purposes of convenience, surgical stapling instrument 1 of the present invention may be provided with a locking system to automatically lock the former in its staple-gripping position illustrated in Figures 13, 20 and 21. Thus, once ~he surgeon has gripped and extracted a staple 54 from cartridge 45, he need not maintain pressure on lower handle 3 while the tissue is approximated to make ready for staple placement. Furthermore, with such a locking system, an assistant could locate a staple on anvil surface 17 of surgical stapling instrument 1 and hand the "loaded" surgical stapling instrument to the surgeon for staple forming and implanting.
To this end, reference is made to Fi.~ures l, 24, 25 and 26. As is shown in these Figures, the rearward ends o~
lea~ springs 6 and 7 can be configured to provide the desired lockillg system.
As is most clearly sho-wn in Figure 1, leaf spring 6 has a first rearward portion 6a which curves downwardly Erom the end of upper handle 2. LeaE spring S has a second portion 6b, angularly related to portion 6A, and substantially planar.
At the juncture of portions 6a and Sh there is a pair of opposed notches 66 and 67 with the result that th~
portion of leaf spring 6 located between notches 66 and 67 o~J ~ P~
is o~ diminished width. Notches 66 and 67 will be referred to hereinafter as the transEer notches. At the free end of the portion 6b of leaE spring 6 a secon~pair of opposed notches 68 and 69 are provided ('nereinaEter re~erred to a,s reset notches) and resulting in the fact that the end~ost portion of lea-E spring 6 is of about the same width as that portion lying between transfer notcnes 66 and 67. Just above reset notches 68 and 697 a locking tab 70 is formed ln the spring portion 6b by simply offsetting a part of portion 6b. This is clearly shown, for example, in Figure 24.
Leaf spring 7 has a substantially planar end portion 7a which extends beyond the end o-f lower handle 3. Spring portion 7a has an H-shaped perforation Eormed transversely therein and generally indicated at 71 in Figure 26. The leg of the H-shaped perEoration nearest the end of lower handle 3 is indicated by index numeral 72 and will hereinafter be referred to as the former track. Former track 72 is of a length slightly greater than the maximum width o;E the portion 6b oE leaf spring 6. That leg o~
H-shaped per~ora~ion 71 whic'n is remote Erom the end of lower handle 3 is indicated by index numeral 73 and will hereinafter be referred to as the by-pass track. By-pass track 73 is oE a lengtl- equal to the leng~h of form~r track 72. That portion of H-shaped perforation 71 Located between Eormer track 72 and by-pass track 73 is indicated by index mlmeral 74 and will hereinafter be referred to as the transfer slot. TransEer slot 74 i.s of a width les~s than the maximum width of portlon 6b of leaf spring 6, bu-t greater than the wldth of those portions oE leaf spring 6 located between transfer notches 66 and 67 and reset notches 68 and 69.
The above described rearward ends of lea~E spring 6 and 7 constitute the locki.ng system of the present invention.
Their operation may be clescribed as follows. I~hen the surgical stapling instrument l is in its normal, unactuated condition, as illustrated in Figures 1 and 2, the narrow end of por~lon 6b of lea~ spring 6 locat~d between reset notches 6~ and 69 will normally extend`into Eormer track 72 of spring portion 7a. The configuration of leaf spring 6 and its portions 6a and 6b is such that the lowermost end of portion 6b is constantly biased toward the end of lower handle 3. This is shown in Flgures 24, 25 and 26.
When the lowermos~ end of nose portlon 10 of instrument 1 is inserted into cartridge 45 wlth anvil surface i7 located beneath the crown 55 of a surgical staple 54 (as shown in Figures 18 and 19), and when the surgeon or his assistan~ squeezes lower handle 3 to cause the staple 54 to be grasped between former 5 and anvil surface 17 (as shown in Figures 20 and 21), th:is movement of lower handle 3 will cause locking tab 70 on spring portion 6b to pass through former track 72 and to engage the underside of portion 7a of spring 7. This engagement of spring portion 7a by locking l:ab 70 will cause the staple to be locked in tl~e position shown in Figures 20 and 21 and the surgeon or his assistant need no longer apply pressure to lower handle 3. The relative positions of the parts are clearly illustrated in Figures 13, 27, 28 and 29.
During the forming and implanting procedure, as lower handle 3 is rotated about its fixed pivot point, the configuration o~ leaf spring 6 and its portions 6a and 6b is .such that portion 6b will ~e urged toward the by-pass track 73, but will be trapped in t'ne former track 72 since it cannot pass through the narrower transEer slot 74. As a result, leaf spring 6 will ride the rearward edge of former traclc 72 as shown in Figures 30, 31 and 32.
~owever, when the surgical staple is fully :~ormed and implanted, portion 7a of lea:E spring 7 will Einally reach the transfer notches 66 and 67 in portion ~b of leaf spring 6. Transfer notcl~es 66 and 67 will enable leaf spring 6 to pass from the Eormer track 72 through transfer slot 74 and into by-pass track 73. This is shown i~
Figures 14, 33, 34 and 35.
After the stapling procedure, whe.n the surgeon releases lower ~andle 3, spring portion 7a will s]ide down portion 6b of leaf spring 6 via by-pass track 73. The configuratlon of leaE sprin~ 6 and its portions 6a and 6b is such that as by-pass track 73 slides down portion 6b, portion 6b will be urged toward former track 72, but will be trapped in by-pass track 73 since it cannot pass through the narrower transfer slot 74. The width of locking tab 70 is such, however, that it can pass ~hrough transfer slot 74. As soon as reset notches 68 and 69 enter by-pass track 73, they will permit leaf spring 6 to pass from by-pass track 73 through transEer slot 74 to Eormer track 72. Thus, por-tion 6b reassumes its normal position illustrated in Figures 1, 24, 25 and 26 and is ~herefore in position for the stapling procedure to be repeated.
In the above description and in the claims, terms such as "downwardly depending", "vertical", "upper handle", "lower handle", "top surface'l, "bottom surface" and the like are used to describe the instrument and its cartridge in relation to the drawings for purposes of clarity. It will be unders~ood that, in useS the instrument and its cartridge can assume any orientation necessary for the particular suturing procedure being practiced at a given time.
Modifications may be made in the invention without departing from the spirit o~ it.
Claims (29)
1. A surgical stapling system comprising a surgical stapling instrument and a separate surgical staple-carrying cartridge therefore, said instrument being pliers-like and having upper and lower handles, said upper handle having at its forward end a body portion terminating in an elongated downwardly depending nose portion, said nose portion terminating at its lower end in a forwardly extending anvil having an upper surface comprising an anvil surface, said nose and body portions of said upper handle having coplanar forward surfaces, a staple former being removably and slidably mounted on said forward surfaces above said anvil surface, said lower handle having a forward end, said lower handle being pivotally connected near its forward end to said body portion of said upper handle, said forward end of said lower handle being operatively connected to said former to shift said former from a normal retracted position through a staple engaging position to a staple forming position adjacent said anvil surface when said lower handle is shifted from its normal position toward said upper handle, and to shift said former from its staple forming position to is normal retracted position when said lower handle is shifted away from said upper handle to its normal position, and means biasing said lower handle and said former to their normal positions, said staple carrying cartridge comprising a one-piece, elongated member having sides, top and bottom surfaces and ends, a plurality of slots formed in said top surface of said cartridge and extending vertically downwardly thereform, said slots extending transversely of the long axis of said cartridge and being in parallel spaced relationship with respect to each other so as to form a row of said slots along the length of said cartridge, each slot terminating in vertical end surfaces and being so sized as to receive a surgical staple therein of the type having a crown terminating in downwardly depending legs, with said vertical end surfaces of said slot frictionally engaging said downwardly depending staple legs to maintain said staple within said slot, said cartridge having a longitudinal groove in said top surface, said longitudinal groove extending the full length of said cartridge and through said ends thereof, said groove intersecting each of said transverse slots, said longitudinal groove being so configured as to receive said nose portion of said surgical stapling instrument with said anvil surface below and said staple former above an endmost staple in said row of transverse slots, whereby upon partially shifting said staple former from said normal to said staple engaging position said staple will he engaged by said anvil surface and said former and slightly deformed to release the frictional engagement of said staple legs by said slot end enabling said staple to be withdrawn from said cartridge slot by said surgical stapling instrument.
2. The structure claimed in claim 1 including a surgical staple located in each of said transverse slots.
3. The structure claimed in claim 1 wherein each of said transverse slots is of such a depth that a surgical staple located therein will have its crown portion parallel to and below said top surface of said cartridge.
4. The structure claimed in claim 1 wherein said longitudinal groove is of T-shaped cross section.
5. The structure claimed in claim 1 wherein said cartridge is a molded structure of a plastic material suitable for use in a surgical environment.
6. The structure claimed in claim 1 wherein said transverse slots are so spaced from each other that a staple may be removed from each of said slots without disturbing a staple located in the next succeeding slot.
7. The structure claimed in claim 1 including a pressure sensitive adhesive layer on said bottom surface of said cartridge.
8. The structure claimed in claim 1 including a keel depending downwardly from the underside of said anvil and said lower end of said nose portion, said keel being centered with respect to the underside of said anvil and said lower end of said nose portion and extending front to rear thereof.
9. The structure claimed in claim 1 wherein said body portion of said upper handle has a slot extending therethrough and through said forward surface thereof, said lower handle extending through said slot and being pivotally affixed therein by a pivot pin extending through coaxial perforations in said body portion of said upper handle and in said lower handle, said former having a slot extending therethrough near its upper end, said lower handle forward end being rounded and extending beyond said forward surface of said upper handle body portion and into said slot in said former.
10. The structure claimed in claim 1 wherein said means to bias said lower handle and said former to their normal positions comprise first and second leaf springs each having forward and rearward ends, said first and second leaf springs being removably mounted to the facing surfaces of said upper and lower handles respectively, said forward ends of said first and second leaf spring being detachably interconnected whereby said first and second leaf springs bias said former and said lower handle to their normal positions.
11. The structure claimed in claim 9 including a spring clip to removably maintain said pivot pin in place so that said pivot pin can be removed and said lower handle detached from said upper handle, said spring clip comprising an elongated member lying along said upper handle and having first and second ends, said pivot pin being affixed to said first end of said spring clip, said second end of said spring clip having a transverse hook-like configuration releasably engaging said upper handle with a snap fit.
12. The structure claimed in claim 10 including means to maintain said former and said lower handle in said staple engaging position, said last mentioned means comprising an H-shaped slot formed in and extending transversely of the reaward end of said second leaf spring, said leg of said H-shaped slot nearest said rearward end of said second spring comprising a former slot, said other leg of said H-shaped slot comprising a by-pass slot, said portion of said H-shaped slot joining said by-pass and former slots comprising a transfer slot, said first leaf spring having a rearward portion depending downwardly toward said rearward end of said second leaf spring, said rearward portion of said first leaf spring being slightly narrower than said by-pass and former slots and being wider than said transfer slot, said rearward portion of said first leaf spring having an end portion narrower in width than said transfer slot, an integral locking tab just above said end portion and a pair of opposed transfer notches spaced above said locking tab to form a transfer portion narrower than said transfer slot, said first and second leaf springs being so configured that when said lower handle is in said normal position said narrow end portion of said first leaf spring extends into said former slot of said second leaf spring, when said lower handle and said former are shifted to said staple engaging position said locking tab of said first leaf spring engages said second leaf spring rearward end and maintains said lower handle and said former in their staple engaging positions, when said lower handle and said former are shifted to their staple forming positions said first leaf spring is so configured that its transfer portion shifts through said transfer slot into said by-pass slot of said second leaf spring, and as said lower handle and said former return to their normal positions, said rear-ward portion of said first leaf spring is so configured as to remain in said by-pass slot of said second leaf spring until said narrow end portion of said first leaf spring reaches said by-pass slot at which time it shifts through said transfer slot to said former slot.
13. A surgical stapling instrument for forming and implanting surgical staples in the skin or fascia of a patient, said instrument being pliers-like and comprising upper and lower handles, said upper handle having at its forward end a body portion terminating in an elongated downwardly depending nose por-tion, said nose portion terminating at its free lower end in a forwardly extend-ing anvil having an upper surface comprising an anvil surface, said nose and body portions of said upper handle having coplanar forward surfaces above said anvil surface, a staple former being removably and slidably mounted on said for-ward surfaces above said anvil surface, said lower handle having a forward end, said lower handle being pivotally connected near its forward end to said body portion of said upper handle, said forward end of said lower handle being opera-tively connected to said former to shift said former from a normal retracted position through a staple engaging position adjacent said anvil surface to a staple forming position when said lower handle is shifted from its normal posi-tion toward said upper handle, and to shift said former from its staple-forming position to its normal retracted position when said lower handle is shifted away from said upper handle to its normal position, and means biasing said lower handle and said former to their normal positions.
14. The structure claimed in claim 13 including a keel depending downwardly from the underside of said anvil and said lower end of said nose portion, said keel being centered with respect to the underside of said anvil and said lower end of said nose portion and extending front to rear thereof.
15. The structure claimed in claim 13 wherein said body portion of said upper handle has a slot extending therethrough and through said forward surface thereof, said lower handle extending through said slot and being pivotally affixed therein by a pivot pin extending through coaxial perforations in said body portion of said upper handle and in said lower handle, said former having a slot extending therethrough near its upper end, said lower handle forward end being rounded and extending beyond said forward surface of said upper handle body portion and into said slot in said former.
16. The structure claimed in claim 13 wherein said means to bias said lower handle and said former to their normal positions comprise first and second leaf springs each having forward and rearward ends, said first and second leaf springs being removably mounted to the facing surfaces of said upper and lower handles respectively, said forward ends of said first and second leaf spring being detachably interconnected whereby said first and second leaf springs bias said former and said lower handle to their normal positions.
17. The structure claimed in claim 15 including a spring clip to removably maintain said pivot pin in place so that said pivot pin can be removed and said lower handle detached from said upper handle, said spring clip comprising an elongated member lying along said upper handle and having first and second ends, said pivot pin being affixed to said first end of said spring clip, said second end of said spring clip having a transverse hook-like configuration releasably engaging said upper handle with a snap fit.
18. The structure claimed in claim 15 wherein said means to bias said lower handle and said former to their normal positions comprise first and second leaf springs each having forward and rearward ends, said first and second leaf springs being removably mounted to the facing surfaces of said upper and lower handles respectively said forward ends of said first and second leaf spring being detachably interconnected whereby said first and second leaf springs bias said former and said lower handle to their normal positions.
19. The structure claimed in claim 16 including means to maintain said former and said lower handle in said staple engaging position, said last mentioned means comprising an H-shaped slot formed in and extending transversely of the reaward end of said second leaf spring, said leg of said H-shaped slot nearest said rearward end of said second spring comprising a former slot, said other leg of said H-shaped slot comprising a by-pass slot, said portion of said H-shaped slot joining said by-pass and former slots comprising a transfer slot, said first leaf spring having a rearward portion depending downwardly toward said rearward end of said second leaf spring, said rearward portion of said first leaf spring being slightly narrower than said by-pass and former slots and being wider than said transfer slot, said rearward portion of said first leaf spring having an end portion narrower in width than said transfer slot, an integral locking tab just above said end portion and a pair of opposed transfer notches spaced above said locking tab to form a transfer portion narrower than said transfer slot, said first and second leaf springs being so configured that when said lower handle is in said normal position said narrow end portion of said first leaf spring extends into said former slot of said second leaf spring, when said lower handle and said former are shifted to said staple engaging position said locking tab of said first leaf spring engages said second leaf spring rearward end and maintains said lower handle and said former in their staple engaging positions, when said lower handle and said former are shifted to their staple forming positions said first leaf spring is so configured that its transfer portion shifts through said transfer slot into said by-pass slot of said second leaf spring, and as said lower handle and said former return to their normal positions, said rearward portion of said first leaf spring is so configured as to remain in said by-pass slot of said second leaf spring until said narrow end portion of said first leaf spring reaches said by-pass slot at which time it shifts through said transfer slot to said former slot.
20. The structure claimed in claim 18 including means to maintain said former and said lower handle in said staple engaging position, said last mentioned means comprising an H-shaped slot formed in and extending transversely of the reaward end of said second leaf spring, said leg of said H-shaped slot nearest said rearward end of said second spring comprising a former slot, said other leg of said H-shaped slot comprising a by-pass slot, said portion of said H-shaped slot joining said by-pass and former slots comprising a transfer slot, said first leaf spring having a rearward portion depending downwardly toward said rearward end of said second leaf spring, said rearward portion of said first leaf spring being slightly narrower than said by-pass and former slots and being wider than said transfer slot, said rearward portion of said first leaf spring having an end portion narrower in width than said transfer slot, an integral locking tab just above said end portion and a pair of opposed transfer notches spaced above said locking tab to form a transfer portion narrower than said transfer slot, said first and second leaf springs being so configured that when said lower handle is in said normal position said narrow end portion of said first leaf spring extends into said former slot of said second leaf spring, when said lower handle and said former are shifted to said staple engaging position said locking tab of said first leaf spring engages said second leaf spring rearward end and maintains said lower handle and said former in their staple engaging positions, when said lower handle and said former are shifted to their staple forming positions said first leaf spring is so configured that its transfer portion shifts through said transfer slot into said by-pass slot of said second leaf spring, and as said lower handle and said former return to their normal positions, said rearward portion of said first leaf spring is so configured as to remain in said by-pass slot of said second leaf spring until said narrow end portion of said first leaf spring reaches said by-pass slot at which time it shifts through said transfer slot to said former slot.
21. The structure claimed in claim 20 including a spring clip to removably maintain said pivot pin in place so that said pivot pin can be removed and said lower handle detached from said upper handle, said spring clip comprising an elongated member lying along said upper handle and having first and second ends, said pivot pin being affixed to said first end of said spring clip, said second end of said spring clip having a transverse hook-like configuration releasably engaging said upper handle with a snap fit.
22. The structure claimed in claim 21 including a keel depending downwardly from the underside of said anvil and said lower end of said nose portion, said keel being centered with respect to the underside of said anvil and said lower end of said nose portion and extending front to rear thereof.
23. A cartridge to contain surgical staples of the type having an inverted U-shaped configuration with a crown portion terminating at its ends in downwardly depending legs, said cartridge being intended for use with a pliers-like surgical stapling instrument having a nose portion with an anvil surface formed thereon and a staple former shiftable between a normal retracted position and an extended position wherein it forms a staple about said anvil surface during emplacement of said staple in the skin or fascia of a patient, said cartridge comprising an integral, one-piece, elongated member having sides, top and bottom surfaces and ends, a plurality of slots formed in said top surface of said cartridge and extending vertically downwardly therefrom, said slots extending transversely of the long axis of said cartridge and being in parallel spaced relationship with respect to each other so as to form a row of said slots along the length of said cartridge, each slot terminating in vertical end surfaces and being so sized as to receive a surgical staple therein with said vertical end surfaces of said slot frictionally engaging said downwardly depending staple legs to maintain said staple within said slot, said cartridge having a longitudinal groove in said top surface, said longitudinal groove extending the full length of said cartridge and through said ends thereof, said groove intersecting each of said transverse slots, said longitudinal groove being so configured as to receive said nose portion of said surgical stapling instrument with said anvil surface below and said staple former above an endmost staple in said row of transverse slots, whereby upon paritally shifting said staple former from said normal toward said extended position said staple will be engaged by said anvil surface and said former and slightly deformed to release the frictional engagement of said staple legs by said slot ends enabling said staple to be withdrawn from said cartridge slot by said surgical stapling instrument.
24. The structure claimed in claim 23 including a surgical staple located in each of said transverse slots.
25. The structure claimed in claim 23 wherein each of said transverse slots is of such a depth that a surgical staple located therein will have its crown portion parallel to and below said top surface of said cartridge.
26. The structure claimed in claim 23 wherein said longitudinal groove is of T-shaped cross section.
27. The structure claimed in claim 23 wherein said cartridge is a molded structure of a plastic material suitable for use in a surgical environment.
28. The structure claimed in claim 23 wherein said transverse slots are so spaced from each other that a staple may be removed from each of said slots without disturbing a staple located in the next succeeding slot.
29. The structure claimed in claim 23 including a pressure sensitive adhesive layer on said bottom surface of said cartridge.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US365,544 | 1982-04-05 | ||
| US06/365,544 US4485953A (en) | 1982-04-05 | 1982-04-05 | Surgical stapling instrument and cartridge therefor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1198024A true CA1198024A (en) | 1985-12-17 |
Family
ID=23439298
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000423414A Expired CA1198024A (en) | 1982-04-05 | 1983-03-11 | Surgical stapling instrument and cartridge therefor |
Country Status (27)
| Country | Link |
|---|---|
| US (1) | US4485953A (en) |
| JP (1) | JPS58185141A (en) |
| KR (1) | KR880001025B1 (en) |
| AT (1) | AT391414B (en) |
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| ZA (1) | ZA832035B (en) |
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| CA2014302A1 (en) * | 1989-04-14 | 1990-10-14 | John A. Santangelo | Multi-position latching mechanism for forceps |
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| US5497933A (en) * | 1991-10-18 | 1996-03-12 | United States Surgical Corporation | Apparatus and method for applying surgical staples to attach an object to body tissue |
| US5662662A (en) * | 1992-10-09 | 1997-09-02 | Ethicon Endo-Surgery, Inc. | Surgical instrument and method |
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| US7004950B1 (en) * | 2002-06-21 | 2006-02-28 | Collins James R | Tissue aligning surgical stapler and method of use |
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| US20120145765A1 (en) | 2002-06-25 | 2012-06-14 | Peterson James A | Mechanical method and apparatus for bilateral tissue fastening |
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| US7950559B2 (en) | 2002-06-25 | 2011-05-31 | Incisive Surgical, Inc. | Mechanical method and apparatus for bilateral tissue fastening |
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| US8100939B2 (en) | 2005-07-15 | 2012-01-24 | Incisive Surgical, Inc. | Mechanical method and apparatus for sequential tissue fastening |
| US7637410B2 (en) * | 2006-10-06 | 2009-12-29 | Tyco Healthcare Group Lp | Surgical instrument including a locking assembly |
| US20110036891A1 (en) * | 2009-08-11 | 2011-02-17 | Tyco Healthcare Group Lp | Surgical stapler with visual positional indicator |
| US9844377B2 (en) | 2014-04-25 | 2017-12-19 | Incisive Surgical, Inc. | Method and apparatus for wound closure with sequential tissue positioning and retention |
| USD752219S1 (en) | 2015-01-02 | 2016-03-22 | Incisive Surgical, Inc. | Tissue fastening instrument |
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| US20190133590A1 (en) | 2017-11-03 | 2019-05-09 | Covidien Lp | Ligation clip with controlled tissue compression |
| US10932789B2 (en) | 2018-04-11 | 2021-03-02 | Covidien Lp | Ligation clip with latching and retention features |
| US10932788B2 (en) | 2018-04-11 | 2021-03-02 | Covidien Lp | Ligation clip with latching and retention features |
| US11033279B2 (en) | 2018-04-24 | 2021-06-15 | Covidien Lp | Ligation clip with retention features |
| US11304703B2 (en) | 2018-05-25 | 2022-04-19 | Covidien Lp | Ligation clip removal device |
| CN108433772A (en) * | 2018-05-31 | 2018-08-24 | 吴淑英 | Skin penetrating point staplers |
| US11317923B2 (en) | 2018-08-13 | 2022-05-03 | Covidien Lp | Ligation clip with improved hinge |
| US11304704B2 (en) | 2018-08-22 | 2022-04-19 | Covidien Lp | Surgical clip applier and ligation clips |
| US11471165B2 (en) | 2019-05-08 | 2022-10-18 | Covidien Lp | Ligation clip cartridge |
| US11707282B2 (en) | 2019-07-02 | 2023-07-25 | Covidien Lp | Multi-piece ligation clip |
| USD907203S1 (en) | 2019-08-02 | 2021-01-05 | Covidien Lp | Ligation clip |
| USD907204S1 (en) | 2019-08-02 | 2021-01-05 | Covidien Lp | Ligation clip |
| USD907200S1 (en) | 2019-08-05 | 2021-01-05 | Covidien Lp | Ligation clip |
| US11395660B2 (en) | 2019-08-05 | 2022-07-26 | Covidien Lp | Stackable ligation clip |
| US11696764B2 (en) | 2020-01-31 | 2023-07-11 | Covidien Lp | Ligation clip with controlled tissue compression |
| CN113288693A (en) * | 2021-05-27 | 2021-08-24 | 田秋梅 | Nasal part shaping assistor and using method thereof |
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| US3873016A (en) * | 1973-11-30 | 1975-03-25 | Meyer Fishbein | Pliers type surgical stapler for joining disunited skin or fascia |
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| AU548936B2 (en) * | 1981-01-28 | 1986-01-09 | Senco Products Inc. | Disposable surgical stapler |
| US4361229A (en) * | 1981-08-03 | 1982-11-30 | Ethicon, Inc. | Cartridge for hemostatic clips |
-
1982
- 1982-04-05 US US06/365,544 patent/US4485953A/en not_active Expired - Lifetime
-
1983
- 1983-03-11 CA CA000423414A patent/CA1198024A/en not_active Expired
- 1983-03-16 NZ NZ203590A patent/NZ203590A/en unknown
- 1983-03-17 SE SE8301472A patent/SE452095B/en not_active IP Right Cessation
- 1983-03-17 IL IL68163A patent/IL68163A/en unknown
- 1983-03-18 AU AU12599/83A patent/AU565399B2/en not_active Ceased
- 1983-03-21 DK DK128083A patent/DK128083A/en not_active Application Discontinuation
- 1983-03-23 ZA ZA832035A patent/ZA832035B/en unknown
- 1983-03-29 BE BE0/210423A patent/BE896299A/en not_active IP Right Cessation
- 1983-03-29 GB GB08308610A patent/GB2117693B/en not_active Expired
- 1983-03-29 NL NL8301103A patent/NL8301103A/en not_active Application Discontinuation
- 1983-03-29 PT PT76475A patent/PT76475B/en unknown
- 1983-03-29 NO NO831146A patent/NO831146L/en unknown
- 1983-03-30 GR GR70937A patent/GR77406B/el unknown
- 1983-03-30 FI FI831097A patent/FI71662C/en not_active IP Right Cessation
- 1983-03-31 DE DE3311830A patent/DE3311830C2/en not_active Expired
- 1983-04-01 FR FR838305474A patent/FR2524295B1/en not_active Expired
- 1983-04-01 IT IT67362/83A patent/IT1158923B/en active
- 1983-04-04 KR KR1019830001394A patent/KR880001025B1/en not_active IP Right Cessation
- 1983-04-04 YU YU00796/83A patent/YU79683A/en unknown
- 1983-04-04 JP JP58058033A patent/JPS58185141A/en active Pending
- 1983-04-04 MX MX196819A patent/MX159346A/en unknown
- 1983-04-04 DD DD83249466A patent/DD210203A5/en unknown
- 1983-04-04 BR BR8301720A patent/BR8301720A/en not_active IP Right Cessation
- 1983-04-05 CH CH4800/86A patent/CH664278A5/en not_active IP Right Cessation
- 1983-04-05 CH CH1832/83A patent/CH662262A5/en not_active IP Right Cessation
- 1983-04-05 AT AT0119283A patent/AT391414B/en not_active IP Right Cessation
- 1983-04-05 ES ES1983280982U patent/ES280982Y/en not_active Expired
-
1985
- 1985-03-28 GB GB08508120A patent/GB2154928B/en not_active Expired
- 1985-06-27 SE SE8503202A patent/SE455569B/en not_active IP Right Cessation
-
1987
- 1987-07-29 AU AU76261/87A patent/AU590945B2/en not_active Expired - Fee Related
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