The present disclosure relates to surgical clip appliers. More particularly, the present disclosure relates to reposable surgical clip appliers having a disposable clip cartridge assembly for use in open or endoscopic surgical procedures.
Surgical clip appliers are known in the art and have increased in popularity among surgeons by offering an alternative to conventional suturing of body tissues and vessels. Typical instruments are disclosed in U.S. Pat. No. 5,030,226 to Green et al. and U.S. Pat. No. 5,431,668 to Burbank, III et al. These instruments generally provide a plurality of clips which are stored in the instrument and which are fed sequentially to the jaw mechanism at the distal end of the instrument upon opening and closing of the handles at the proximal end of the instrument. As the handles are closed, the jaws close to deform a clip positioned between the jaw members, and as the jaws are opened to release the deformed clip, a new clip is fed from the series of clips to a position between the jaws. This process is repeated until all the clips in the series of clips have been used.
During open, endoscopic, or laparoscopic procedures, it may be desirable and/or necessary to use different size surgical clips depending on the underlying tissue or vessels to be ligated. In order to reduce overall costs of a surgical clip applier, it is desirable for a single surgical clip applier to be loadable with and capable of firing different size surgical clips as needed.
Accordingly, a need exists for surgical clip appliers that include disposable clip cartridge assemblies and reusable handle assemblies.
The present disclosure relates to reposable endoscopic surgical clip appliers.
According to an aspect of the present disclosure, a clip cartridge assembly is provided and includes a clip tray, a cartridge clip pusher bar, and a plurality of surgical clips interposed between the clip tray and the cartridge clip pusher bar.
The clip tray is configured to be selectively loadable in a channel assembly of a surgical clip applier and includes a first plurality of distally oriented, deflectable, resilient fingers projecting from a base wall thereof,wherein a surgical clip is disposed distally of each resilient finger of the clip tray.
The cartridge clip pusher bar is disposed adjacent the clip tray and is slidable relative thereto. The cartridge clip pusher bar includes a second plurality of distally oriented, deflectable, resilient fingers projecting from a base wall thereof which each terminate in a distal shoulder.
The cartridge clip pusher bar may include a stem disposed at and projection from a proximal end of the cartridge clip pusher bar. The stem may be configured to slidably extend through a channel defined in an inner surface of the clip tray. The cartridge clip pusher bar may be urged distally relative to the clip tray.
In use, distal movement of the cartridge clip pusher bar causes each distal shoulder of the cartridge clip pusher bar to contact a backspan of a respective surgical clip, thereby distally advancing all of the surgical clips simultaneously.
Following distal movement of the cartridge clip pusher bar, upon a proximal movement of the cartridge clip pusher bar, each of the second plurality of distally oriented, deflectable, resilient fingers contacts the backspan of a respective remaining one of the surgical clip to proximally move all of the remaining surgical clips until the backspans of all of the remaining surgical clips contacts a respective finger of the first plurality of distally oriented, deflectable, resilient fingers of the clip tray to block any further proximal movement of the remaining surgical clips.
The clip tray may include a spaced apart pair of distally oriented, deflectable, resilient fingers projecting from a distal end of the base wall thereof configured to contact a distal surface of a backspan of a surgical clip being distally urged by the cartridge clip pusher bar, thereby inhibiting any further distal movement of the surgical clip.
The distal-most finger of the first plurality of distally oriented, deflectable, resilient fingers may have a rectangular configuration.
Each remaining finger of the first plurality of distally oriented, deflectable, resilient fingers may include a V-shaped notch formed in a distal end thereof.
A distal end of the cartridge clip pusher bar may include a pusher disposed thereon defining a pair of spaced apart prongs configured to engage a backspan of a surgical clip.
The clip cartridge assembly may include a channel cover configured to selectively engage the clip tray. The channel cover may be configured to provide a biasing force on the cartridge clip pusher bar such that the cartridge clip pusher bar is maintained in a position adjacent to the clip tray.
According to another aspect of the present disclosure, a surgical clip applier is provided and includes a housing, at least one handle pivotably connected to the housing, a channel assembly extending distally from the housing, a clip cartridge assembly selectively loadable in the channel assembly being in mechanical communication with the at least one handle, and a pair of jaws supported on a distal end of the channel assembly configured to receive a single, unformed surgical clip therein.
The clip cartridge assembly includes a clip tray, a cartridge clip pusher bar, and a plurality of surgical clips interposed between the clip tray and the cartridge clip pusher bar.
The clip tray is configured to be selectively loadable in a channel assembly of the surgical clip applier, and includes a first plurality of distally oriented, deflectable, resilient fingers projecting from a base wall thereof, wherein a surgical clip is disposed distally of each resilient finger of the clip tray.
The cartridge clip pusher bar is disposed adjacent the clip tray and is slidable relative thereto. The cartridge clip pusher bar includes a second plurality of distally oriented, deflectable, resilient fingers projecting from a base wall thereof and each terminates in a distal shoulder. A proximal end of the cartridge clip pusher bar is configured for selective engagement with a drive assembly of the surgical clip applier, such that the cartridge clip pusher bar is in mechanical communication with the at least one handle of the surgical clip applier.
The cartridge clip pusher bar may include a stem disposed at and projection from a proximal end of the cartridge clip pusher bar. The stem may be configured to slidably extend through a channel defined in an inner surface of the clip tray and selectively engage a drive assembly of the surgical clip applier, such that actuation of the at least one handle of the surgical clip applier causes the drive assembly of the surgical clip applier to act on the stem of the cartridge clip pusher bar, wherein the cartridge clip pusher bar is urged distally relative to the clip tray.
In use, distal movement of the cartridge clip pusher bar causes each distal shoulder of the cartridge clip pusher bar to contact a backspan of a respective surgical clip, thereby distally advancing all of the surgical clips simultaneously.
Following distal movement of the cartridge clip pusher bar, upon a proximal movement of the cartridge clip pusher bar, each of the second plurality of distally oriented, deflectable, resilient fingers contacts the backspan of a respective remaining one of the surgical clip to proximally move all of the remaining surgical clips until the backspans of all of the remaining surgical clips contacts a respective finger of the first plurality of distally oriented, deflectable, resilient fingers of the clip tray to block any further proximal movement of the remaining surgical clips.
The clip tray may include a spaced apart pair of distally oriented, deflectable, resilient fingers projecting from a distal end of the base wall thereof configured to contact a distal surface of a backspan of a surgical clip being distally urged by the cartridge clip pusher bar, thereby inhibiting any further distal movement of the surgical clip.
The distal-most finger of the first plurality of distally oriented, deflectable, resilient fingers may have a rectangular configuration.
Each remaining finger of the first plurality of distally oriented, deflectable, resilient fingers may include a V-shaped notch formed in a distal end thereof.
A distal end of the cartridge clip pusher bar may include a pusher disposed thereon defining a pair of spaced apart prongs configured to engage a backspan of a surgical clip.
The reposable surgical clip applier may include a channel cover configured to selectively engage the clip tray. The channel cover may be configured to provide a biasing force on the cartridge clip pusher bar such that the cartridge clip pusher bar is maintained in a position adjacent to the clip tray.
The surgical clip applier may include an endoscopic assembly selectively connectable to the housing, wherein the channel assembly is disposed within the endoscopic assembly. A distal end of the endoscopic assembly may include a pair of jaws supported thereon.
The present clip applier will be more fully appreciated as the same becomes better understood from the following detailed description when considered in connection with the following drawings, in which:
Embodiments of reposable surgical clip appliers, in accordance with the present disclosure, will now be described in detail with reference to the drawing figures wherein like reference numerals identify similar or identical structural elements. As shown in the drawings and described throughout the following description, as is traditional when referring to relative positioning on a surgical instrument, the term “proximal” refers to the end of the apparatus which is closer to the user and the term “distal” refers to the end of the apparatus which is further away from the user.
Referring now to
As shown in
Referring again to
Referring now to
A distal end of drive channel 140 is a substantially box-shaped tube including a pair of spaced apart side walls 140b interconnecting a top wall 140a and a bottom wall 140c. The distal-most end of drive channel 140 includes a tongue 140e disposed between side walls 140b and extending from and between top wall 140a and bottom wall 140c.
With continued reference to
A proximal end of drive channel 140 supports a ratchet rack member 141 that is secured thereto, wherein ratchet rack member 141 is movable together with drive channel 140. Ratchet rack member 141 defines a first set of teeth 141a configured and adapted to engage with a first ratchet pawl 142a, and second set of teeth 141b (not shown) disposed on an opposite side thereof configured and adapted to engage a second ratchet pawl 142b. First and second ratchet pawls 142a, 142b are each pivotally supported in housing 104, with first and second ratchet pawls 142a, 142b being disposed on opposed sides of ratchet rack member 141. Rack member 141 and pawls 142a, 142b define a ratchet mechanism 144. In use, as drive channel 140 is moved axially, rack member 141 is also moved axially therewith. The series of rack teeth 141a, 141b have a length which allows respective pawls 142a, 142b to reverse and advance back over rack member 141 when rack member 141 changes between proximal and distal movement after drive channel 140 reaches a proximal-most or distal-most position.
Each pawl 142a, 142b is pivotally supported in upper housing half 104a and lower housing half 104b at a location wherein each pawl 142a, 142b is in substantial operative engagement with respective rack teeth 141a, 141b of rack member 141. Pawls 142a, 142b are engageable with rack member 141 to restrict longitudinal movement of rack member 141 and, in turn, drive channel 140.
Ratchet mechanism 144 includes a snap-over spring 143, in the form of a coil spring, interposed between pawls 142a, 142b and extending through and across rack member 141. Snap-over spring 143 functions to maintain the teeth of pawls 142a, 142b in engagement with the respective rack teeth 141a, 141b of rack member 141 as rack member 141 is axially translated.
In operation, when drive channel 140 is moved to the distal-most position and rack teeth 141a, 141b of rack member 141 have cleared pawls 142a, 142b, a surface of rack member 141 engages snap-over spring 143 to reverse the direction of buckling thereof, and thus reverse or change the orientation of pawls 142a, 142b to thereby permit proximal movement of drive channel 140. Additionally, when drive channel 140 is moved to the proximal-most position and rack teeth 141a, 141b of rack member 141 have once again cleared pawls 142a, 142b, another surface of rack member 141 engages snap-over spring 143 to again reverse the direction of buckling thereof, and thus again reverse or change the orientation of pawls 142a, 142b to thereby permit distal movement of drive channel 140.
Clip applier 100 is provided with audible/tactile indication or feedback when pawls 142a, 142b are flipped at either end of the stroke of drive channel 140. In particular, when pawls 142a, 142b flip, pawls 142a, 142b are accelerated by snap-over spring 143 and slap against the walls of housing 104, thereby providing the user feedback that the end of a stroke has been reached. For a detailed discussion of the construction and operation of an exemplary ratchet mechanism, reference may be made to U.S. Patent Application Publication No. 2014/0194903, the entire contents of which are incorporated by reference herein.
As illustrated in
Continuing with
Turning now to
Clip cartridge assembly 300 includes a clip tray 302 including base wall 302a and a pair of spaced apart side walls or rails 302b supported on base wall 302a. Base wall 302a and side walls 302b define a clip channel 302c. Clip tray 302 includes a linear array of distally extending resilient, deflectable fingers 302d projecting up from base wall 302a and into clip channel 302c at a location between side walls 302b. The distal-most deflectable finger 302d forms a single, rectangular finger configured to engage a backspan or crown of the distal-most clip “C1” and nest between the spaced apart prongs 304d1, 304d2 (
As shown in
Clip cartridge assembly 300 includes a cartridge clip pusher bar 304 s1idably disposed adjacent clip tray 302. Cartridge clip pusher bar 304 includes a proximal end 304 adefining a coupling stem, head, or boss 304c configured to slidably protrude through channel 306 of clip tray 302 and selectively connect with distal end 154a of linkage mechanism 150. Cartridge clip pusher bar 304 further includes a distal end portion 304b defining a pusher 304d configured to engage a distal-most clip “C1” of a stack of surgical clips “C” for loading the distal-most surgical clip “C1” into the pair of jaws 120 of clip applier 100. Pusher 304d includes a pair of spaced apart prongs 304d1, 304d2 (
As illustrated in
In use, the V-shaped configuration of the proximal deflectable fingers 302d of clip tray 302 permits each proximal deflectable finger 304e of the cartridge clip pusher bar 304 to nest within the V-shape of the proximal deflectable fingers 302d such that distal shoulder 304f of deflectable finger 304e engages a backspan of each of the remaining surgical clips of the stack of surgical clips “C” as the cartridge clip pusher bar 304 is driven distally.
Clip cartridge assembly 300 includes a stack of surgical clips “C” interposed between clip tray 302 and cartridge clip pusher bar 304. The stack of surgical clips “C” is supported on or loaded in clip tray 302 such that a crown or backspan of each surgical clip “C” is disposed distal of a respective deflectable finger 302d of clip tray 302. Further, when cartridge clip pusher bar 304 is in a proximal position relative to clip tray 302, each deflectable finger 304e is also disposed proximal of the crown or backspan of a respective clip of the stack of surgical clips “C” as discussed above.
Clip cartridge assembly 300 may be loaded with 10 surgical clips “C”, or, in embodiments, clip cartridge assembly 300 may be loaded with any number of surgical clips C″, provided clip cartridge assembly 300 and channel assembly 108 are appropriately configured and dimensioned. Surgical clips “C” may be fabricated from materials know by those skilled in the art, including and not limited to stainless steel, titanium, or other metal alloys. In an embodiment it is contemplated that at least a final surgical clip of the stack of surgical clips “C” may be dyed a particular color to indicate to the user when a final surgical clip of clip cartridge assembly 300 is loaded into the pair of jaws 120.
Once all of the surgical clips “C” are loaded into the clip tray 302 and cartridge clip pusher bar 304 is placed adjacent thereto, channel cover 308, configured and adapted for connection and support on clip tray 302, may be snapped into engagement with rails 302b of clip tray 302 such that channel cover 308 is detachably secured thereto. Channel cover 308 is configured and adapted to provide a downward biasing force on cartridge clip pusher bar 304, thereby preventing cartridge clip pusher bar 304 from separating from clip tray 302 during operation.
Once fully assembled as shown in
With continued reference to
As the linkage mechanism 150 is urged distally by drive bar 140, the cartridge clip pusher bar 304 of clip cartridge assembly 300 is moved in a distal direction to load distal-most clip “C1” of the stack of surgical clips “C” in a distal direction and into the pair of jaws 120. Specifically, the spaced apart prongs 304d1, 304d2 of pusher 304d of cartridge clip pusher bar 304 engages the backspan of distal-most clip “C1” and pushes distal-most clip “C1” out of clip cartridge assembly 300 and into channel 121 of the pair of jaws 120. As mentioned above, the distal movement of the distal-most clip “C1” compresses each of the spaced apart prongs 302e of the clip tray 302, thereby permitting the distal-most clip “C1” to be loaded within the pair of jaws 120, as described above. Once the distal-most clip “C1” is loaded into the pair of jaws 120, the prongs 302e return to their initial position and prevent the clips “C”, proximal to the distal-most clip “C1”, from advancing further distally.
Additionally, and simultaneously with a distal movement of the distal-most clip “C1”, as cartridge clip pusher bar 304 of clip cartridge assembly 300 moves in a distal direction, distal shoulder 304f of finger 304e of cartridge clip pusher bar 304 abuts against a respective backspan of a respective surgical clip of the remaining surgical clips “C” to also urge the remaining surgical clips “C” in a distal direction, such that fingers 302d of the clip tray 302 are deflected, thereby permitting each of the remaining surgical clips “C” to advance distally to replace each respective surgical clip of the stack of surgical clips “C”. Once distal advancement of each surgical clip “C” is complete, fingers 302d of clip tray 302 spring back or return to their original position, thereby preventing each surgical clip “C” from moving in a proximal direction. Cartridge clip pusher bar 304 distally advances the remaining surgical clips “C” until each remaining surgical clip “C” is advanced distally past a next adjacent resilient, deflectable finger 302d of clip tray 302.
After completely forming the distal-most clip “C1” within the pair of jaws 120, the handles 106 are opened causing the drive channel 140 to retract proximally, thereby causing linkage mechanism 150 to impart a force acting in a proximal direction on coupling stem 304c, thereby drawing cartridge clip pusher bar 304 proximally over each of the remaining surgical clips of the clip stack “C”. As cartridge clip pusher bar 304 is moved in a proximal direction, fingers 304e abut against a distal surface of the backspans of the remaining surgical clips “C” to also urge the remaining surgical clips “C” in a proximal direction. Cartridge clip pusher bar 304 proximally retracts the remaining surgical clips “C” until each remaining surgical clip “C” is retracted into contact with a respective distal tip of a respective resilient, deflectable finger 302d of clip tray 302, which blocks or stops further proximal retraction of the remaining surgical clips “C”.
As cartridge clip pusher bar 304 continues to be drawn proximally, concurrently, the spaced apart prongs 304d1, 304d2 of pusher 304d and fingers 304e of cartridge clip pusher bar 304 are deflected up and over each of the remaining surgical clips “C” until cartridge clip pusher bar 304 returns to a proximal-most position. When clip cartridge assembly 300 is loaded with at least one clip “C”, and when cartridge clip pusher bar 304 is in a proximal-most position, a nose 304g (
The operations described above can be repeated, as required, until all of the surgical clips “C” have been formed.
With reference to
In use, surgical clip applier 100, as mentioned above, is capable of loading different surgical clip cartridge assemblies 300 in channel assembly 108. Specifically, channel assembly 108 may be loaded with a surgical clip cartridge assembly 300 that is loaded with a stack of surgical clips “C” having a first size, or channel assembly 108 may be loaded with a surgical clip cartridge assembly 300 that is loaded with a stack of surgical clips “C” having a second size different than the first size.
In this manner, the user or surgeon may load a surgical clip cartridge assembly 300, loaded with a particular size of surgical clips, depending on the particular surgical procedure to be performed. Additionally, during a surgical procedure, if the need arises to use a different sized surgical clip, the user or surgeon may eject or unload the surgical clip cartridge assembly 300 that is loaded in channel assembly 108and then load a new surgical clip cartridge assembly 300 (having a different sized stack of surgical clips loaded therein as compared to the unloaded surgical clip cartridge assembly 300) into channel assembly 108.
As illustrated in
Also in accordance with the present disclosure, it is further contemplated that a surgical kit may be provided including a surgical clip applier 100 and a plurality of clip cartridge assemblies 300 including at least a first set of clip cartridge assemblies loaded with a stack of surgical clips having a first size and a second set of clip cartridge assemblies loaded with a stack of surgical clips having a second size different than the first size. The kit may include instructions for the assembly or surgical clip applier 100, the use of surgical clip applier 100, and the processing of surgical clip applier assembly 100 following use, a surgical clip applier 100 including a single handle assembly 102 and a single clip cartridge assembly 300, and a package, container or box configured to retain the same.
It should be understood that the foregoing description is only illustrative of the present disclosure. Various alternatives and modifications can be devised by those skilled in the art without departing from the disclosure. Accordingly, the present disclosure is intended to embrace all such alternatives, modifications and variances. The embodiments described with reference to the attached drawing figures are presented only to demonstrate certain examples of the disclosure. Other elements, steps, methods and techniques that are insubstantially different from those described above and/or in the appended claims are also intended to be within the scope of the disclosure.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2015/071089 | 1/20/2015 | WO | 00 |