circular stapling device for fabric stapling

专利摘要:
RATCHET FEATURE ON THE TISSUE STAPLER TRIGGER TO PREVENT PREMATURE OPENING OF THE CLAW. The present invention relates to a surgical instrument that includes a body, a pivoting trigger and a ratchet assembly. The ratchet assembly may include a rotating ratchet attached to the trigger and a tongue attached to the body. The rotating ratchet can also include a ramp that disengages the ratchet from the tongue. A release feature may be included to selectively disengage a second element from the ratchet assembly of a first element. In some versions, the release feature may include a rotary knob or a sliding cable. In another configuration, the ratchet assembly may have a first element coupled to an actuator, and a second element coupled to the body. The assembly may include a locking element coupled to the body, which selectively engages a plurality of teeth disposed on the actuator. Alternatively, the assembly may include a pivoting tongue coupled to the actuator, which engages one or more notches formed in the body.
公开号:BR112014016728B1
申请号:R112014016728-1
申请日:2012-12-17
公开日:2021-03-09
发明作者:Venkataramanan Mandakolathur Vasudevan；Adam R. Dunki-Jacobs；Chester O. Baxter, Iii；Jerome R. Morgan；Cortney E. Henderson；Christopher C. Miller；Kent P. Baker；John V. Hunt；Barry T. Jamison；Patrick A. Weizman；Joseph E. Young；Cory G. Kimball；Carl J. Shurtleff；Edward G. Chekan；Kevin D. Felder；Johnny H. Alexander, Iii；Patrick J. Swindon；Joseph P. Schowalter；John F. Cummings；Julia F. Serber
申请人:Ethicon Endo-Surgery, Inc.；
IPC主号:

专利说明:

BACKGROUND
[001] In some configurations, a surgeon may want to position a surgical instrument through a patient's orifice and use the instrument to adjust, position, secure and / or otherwise interact with the tissues inside the patient. For example, in some surgical procedures, portions of the gastrointestinal tract may be cut and removed to remove unwanted tissue, or for other reasons. Once the desired tissue is removed, the remaining portions will need to be reconnected to each other. One of the tools for performing these anastomotic procedures consists of a circular stapler that is inserted through a hole in the patient.
[002] Examples of such circular surgical staplers are described in US Patent No. 5,205,459, entitled "Surgical Anastomosis Stapling Instrument", issued on April 27, 1993, in US Patent No. 5,271,544, entitled "Surgical Anastomosis Stapling Instrument ", issued on December 21, 1993, in US patent No. 5,275,322, entitled" Surgical Anastomosis Stapling Instrument ", granted on January 4, 1994, in US patent No. 5,285,945, entitled" Surgical Anastomosis Stapling Instrument ", granted on February 15, 1994, in US patent No. 5,292,053, entitled" Surgical Anastomosis Stapling Instrument ", granted on March 8, 1994, in US patent No. 5,333,773, entitled" Surgical Anastomosis Stapling Instrument ", granted on August 2, 1994, in US patent No. 5,350,104, entitled" Surgical Anastomosis Stapling Instrument ", granted on September 27, 1994, and in US patent No. 5,533,661, entitled" Surgical Anastomosis Stapling Instrument ", granted on 9 July 1996. The description of each of the aforementioned US patents is hereby incorporated by reference. Some of these staplers work to secure layers of fabric, cut through the layers of fabric attached, and to make the staples go through the layers of fabric to substantially join the cut layers of fabric together, close to their cut ends.
[003] Other merely additional exemplary surgical staplers are presented in US Patent No. 4,805,823, entitled "Pocket Configuration for Internal Organ Staplers", issued on February 21, 1989, in US Patent No. 5,415,334, entitled "Surgical Stapler and Staple Cartridge ", granted on May 16, 1995, in US patent No. 5,465,895, entitled" Surgical Stapler Instrument ", granted on November 14, 1995, in US patent No. 5,597,107, entitled" Surgical Stapler Instrument ", granted on January 28, 1997, in US patent No. 5,632,432, entitled" Surgical Instrument ", granted on May 27, 1997, in US patent No. 5,673,840, entitled" Surgical Instrument ", granted on October 7, 1997, in US patent No. 5,704,534, entitled "Articulation Assembly for Surgical Instruments", granted on January 6, 1998, in US patent No. 5,814,055, entitled "Surgical Clamping Mechanism", granted on September 29, 1998, in US Patent No. 6,978,921, int entitled "Surgical Stapling Instrument Incorporating an EBeam Firing Mechanism", granted December 27, 2005, in US patent No. 7,000,818, entitled "Surgical Stapling Instrument Having Separate Distinct Closing and Firing Systems", granted on February 21, 2006, US Patent No. 7,143,923, entitled "Surgical Stapling Instrument Having a Firing Lockout for an Unclosed Anvil", issued on December 5, 2006, in US Patent No. 7,303,108, entitled "Surgical Stapling Instrument Incorporating a Multi- Stroke Firing Mechanism with Flexible Rack ", granted on December 4, 2007, in US patent No. 7,367,485, entitled" Surgical Stapling Instrument Incorporating a Multistroke Firing Mechanism Having a Rotary Transmission ", published on May 6, 2008, US Patent No. 7,380,695, entitled "Surgical Stapling Instrument Having a Single Lockout Mechanism for Prevention of Firing", issued on June 3, 2008, in US Patent No. 7,380,696, entitled "Articulating Su rgical Stapling Instrument Incorporating a Two-Piece E-Beam Firing Mechanism ", granted on June 3, 2008, in US patent No. 7,404,508, entitled" Surgical Stapling and Cutting Device ", granted on July 29, 2008, in US patent No. 7,434,715, entitled "Surgical Stapling Instrument Having Multistroke Firing with Opening Lockout", issued on October 14, 2008, and in US Patent No. 7,721,930, entitled "Disposable Cartridge with Adhesive for Use with Stapling Device ", granted on May 25, 2010. The description of each of the aforementioned US patents is hereby incorporated by reference. Although the aforementioned surgical staplers are described as used in endoscopic procedures, it should be understood that these surgical staplers can also be used in open procedures and / or other non-endoscopic procedures.
[004] Although various types of surgical stapling instruments and associated components have been manufactured and used, it is believed that no one before the inventor (s) has manufactured or used the invention described in the attached claims. BRIEF DESCRIPTION OF THE DRAWINGS
[005] Although the specification concludes with claims that specifically indicate and distinctly claim this technology, it is believed that this technology will be better understood from the following description of certain examples, taken in conjunction with the accompanying drawings, in which numbers of equal reference identifiers identify equal elements, and where:
[006] Figure 1 represents a side elevation view of an example of a surgical instrument for circular stapling,
[007] Figure 2A represents an enlarged longitudinal cross-sectional view of an exemplary stapling head assembly for the instrument of Figure 1, showing an example anvil in an open position,
[008] Figure 2B represents an enlarged longitudinal cross-sectional view of the stapling head assembly of Figure 2A, showing the anvil in a closed position,
[009] Figure 2C represents an enlarged longitudinal cross-sectional view of the stapling head assembly of Figure 2A, showing an exemplary staple driver and blade in a triggered position,
[0010] Figure 3 represents an enlarged partial cross-sectional view of an example clamp formed against the anvil,
[0011] Figure 4A represents an enlarged side elevation view of an exemplary actuator cable assembly, of the surgical instrument of Figure 1, with a body portion removed, showing a trigger in an unstressed position and a locking feature in one locked position,
[0012] Figure 4B represents an enlarged side elevation view of the actuator cable assembly of Figure 4A, showing the trigger in a triggered position and the locking feature in an unlocked position,
[0013] Figure 5 represents an enlarged partial perspective view of an exemplary indicator set, of the surgical instrument of Figure 1, showing an indicator window and an indicator lever,
[0014] Figure 6 represents a diagrammatic view of the indicator window of Figure 5, showing an example indicator bar and corresponding example clip representations,
[0015] Figure 7 represents a side elevation view of an exemplary actuator cable assembly with a body portion removed to show an example of a rotating ratchet assembly,
[0016] Figure 8 represents a side elevation view of an exemplary alternative actuator cable assembly, with a body portion removed to show an alternative example of a rotating ratchet assembly,
[0017] Figure 9 represents a side elevation view of yet another set of exemplary actuator cable, showing a set of exemplary V-shaped ratchet,
[0018] Figure 10 represents a partial side elevation view, showing the ratchet assembly in two pieces of Figure 9, with the parts engaged with each other,
[0019] Figure 11 represents a partial side elevation view of yet another set of exemplary actuator cable with a portion of the body removed to show a set of exemplary rotating ratchet with ramp release,
[0020] Figure 12 represents a partial top elevation view of the rotating ratchet assembly of Figure 11, showing an exemplary ramp release,
[0021] Figure 13A represents a partial side elevation view of an exemplary alternative actuator cable set, with a body portion removed to show a trocar set with an exemplary ratchet,
[0022] Figure 13B represents a partial side elevation view of the ratchet trocar assembly of Figure 13A, with a trigger interconnecting a trocar release,
[0023] Figure 14A represents a schematic view of an exemplary actuator cable assembly, showing an example of a screen door lock assembly,
[0024] Figure 14B represents a schematic view of the screen door locking assembly of Figure 14A, showing the screen door locking element halfway through a firing movement,
[0025] Figure 14C represents a schematic view of the screen door locking assembly of Figure 14A, showing the screen door locking element triggered by a trigger termination feature, to disengage the screen door element,
[0026] Figure 15A represents a partial side elevation view of an exemplary actuator cable assembly, with a body portion removed to show an exemplary ratchet assembly with automatic return, and having a spring-driven tongue and ratchet ramps in a starting position,
[0027] Figure 15B represents a partial side elevation view of the ratchet assembly with automatic return of Figure 15A, showing the tongue driven by a final ramp to engage with a clip,
[0028] Figure 16 represents a partial perspective view of the ratchet assembly with automatic return of Figure 15A, with a drive actuator removed,
[0029] Figure 17 represents an enlarged side elevation view of a proximal end of the tongue and clip of Figure 15B, showing a nodule attached to the clip,
[0030] Figure 18A represents a partial perspective view of the tongue and tab in Figure 15B, showing a release feature,
[0031] Figure 18B represents a partial perspective view of the tongue and release feature of Figure 18A, showing the tongue disengaged from the clip.
[0032] The drawings are not intended to be limiting in any way, and it is contemplated that various modalities of technology can be executed in a variety of other ways, including those not necessarily represented in the drawings. The attached drawings, which are incorporated into the specification and which form part of it, illustrate various aspects of the present technology and, together with the description, serve to explain the principles of the technology, understanding, however, that this technology is not limited to the precise provisions shown. DETAILED DESCRIPTION
[0033] The following description of certain examples of the technology should not be used to limit its scope. Other examples, elements, aspects, modalities and advantages of the technology will be evident to those versed in the technique, in view of the teachings contained herein. They will become evident to those skilled in the art with the following description, which is by way of illustrations, one of the best ways contemplated for the realization of the technology. As will be understood, the technology described here is capable of other different and obvious aspects, all without departing from the technology. Consequently, drawings and descriptions should be considered as illustrative rather than restrictive. I. Overview of the exemplary surgical instrument for circular stapling
[0034] Figures 1 to 6 represent an example of a circular surgical stapling instrument 10, having a stapling head assembly 20, a stem assembly 60 and an actuator cable assembly 70, each of which will be described in detail bellow. The stem assembly 60 extends distally from the actuator cable assembly 70, and the staple head assembly 20 is coupled to a distal end of the stem assembly 60. In summary, the actuator cable assembly 70 works in such a way that activate a staple driver 24 of the staple head assembly 20 to drive a plurality of staples 66 out of the staple head assembly 20. To form finished staples, staples 66 are folded by an anvil 40 that is attached to the distal end of the instrument 10. Consequently, the fabric 2 shown in Figures 2A to 2C can be stapled with the use of the instrument 10.
[0035] In the present example, instrument 10 comprises a closing system and a triggering system. The closure system comprises a trocar 38, a trocar actuator 39 and a rotary knob 98. An anvil 40 can be attached to a distal end of the trocar 38. The purpose of the rotary knob 98 is to move the trocar 38 longitudinally in relation to the set stapling head 20, thus translating the anvil 40 when it is coupled to the trocar 38, to staple the fabric between the anvil 40 and the staple head assembly 20. The firing system comprises a trigger 74, a trigger 84, a drive actuator 64 and a staple actuator 24. The staple actuator 24 includes a knife 36, configured to cut the fabric when the staple actuator 24 is actuated longitudinally. In addition, the clamps 66 are positioned distally to a plurality of clamp actuating elements 30 of the clamp driver 24, so that the clamp driver 24 also directs the clamps 66 distally when the clamp driver 24 is driven longitudinally. In this way, when the trigger 74 is activated and the trigger actuation assembly 84 acts the clip actuator 24 by means of the actuator actuator 64, the knife 36 and the elements 30 cut, substantially simultaneously, the fabric 2 and lead staples 66 distally from the staple head assembly 20 and into the fabric. The components and functionalities of the closing system and the firing system will now be described in more detail. A. Anvil example
[0036] As shown in Figures 1 to 2C, the anvil 40 is selectively attachable to the instrument 10, to provide a surface against which the staples 66 can be folded to staple the material contained between the staple head assembly 20 and the anvil 40. The anvil 40 of the present example is selectively attachable to a trocar or pointed rod 38, which extends distally from the stapling head assembly 20. With reference to Figures 2A to 2C, anvil 40 is selectively attachable by coupling from a proximal stem 42 of the anvil 40 to a distal tip of the trocar 38. The anvil 40 comprises a generally circular anvil head 48 and a proximal stem 42 extending proximally from the anvil head 48. In the example shown, the proximal stem 42 comprises a tubular member 44 which has resiliently inclined retaining clips 46 for selectively coupling the anvil 40 to the trocar 38, although this is me optional, and it should be understood that other retention features for coupling anvil 40 to trocar 38 can also be used. For example, C-clips, clamps, threads, pins, stickers, etc. can be used to couple anvil 40 to trocar 38. In addition, although anvil 40 is described as selectively attachable to trocar 38, in some versions the proximal stem 42 may include a one-way coupling feature so that, once anvil 40 cannot be removed from trocar 38. The one-way features are exemplary only, including barbs, one-way fittings, clamps, collars, flaps, strips, etc. It is clear that several other configurations for coupling the anvil 40 to the trocar 38 will become evident to those skilled in the art, in view of the teachings contained herein. For example, trocar 38 may instead be a hollow shaft, and proximal stem 42 may comprise a sharp stem that can be inserted into the hollow shaft.
[0037] The anvil head 48 of the present example comprises a plurality of staple forming pockets 52, formed on a proximal face 50 of the anvil head 48. Consequently, when the anvil 40 is in the closed position and the staples 66 are guided to outside the staple head assembly 20 and into the staple forming pockets 52, as shown in Figure 2C, the legs 68 of the staples 66 are folded to form finished staples. It should be understood that the clamp-forming pockets 52 are purely optional, and may be omitted in some versions.
[0038] With the anvil 40 as a separate component, it should be understood that the anvil 40 can be inserted and attached to a portion of fabric 2 before being coupled to the stapling head assembly 20. Only as an example, the anvil 40 can be inserted and secured to a first tubular tissue portion (2), while instrument 10 is inserted and secured to a second tubular tissue portion 2. For example, the first tubular tissue portion 2 can be sutured in or at the around a portion of the anvil 40, and the second tubular portion of tissue 2 can be sutured in or around the trocar 38.
[0039] As shown in Figure 2A, anvil 40 is then attached to trocar 38. The trocar 38 of the present example is shown in a more distal driven position. This extended position of the trocar 38 can provide a larger area to which the fabric 2 can be attached, prior to fixing the anvil 40. In addition, the extended position of the trocar 38 can also provide easier fixation of the anvil 40 to the trocar 38. The trocar 38 additionally includes a tapered distal tip. This tip may be able to pierce through the tissue, and / or assist in the insertion of anvil 40 into trocar 38, although the tapered distal tip is merely optional. For example, in other versions the trocar 38 may have a non-perforating tip. In addition, or alternatively, trocar 38 may include a magnetic portion (not shown) that can attract anvil 40 towards trocar 38. Of course, other configurations and arrangements for anvil 40 and trocar 38 will become apparent to those skilled in the art. technique, in view of the teachings contained herein.
[0040] When anvil 40 is coupled to trocar 38, the distance between a proximal face of anvil 40 and a distal face of the staple head assembly 20 defines a gap distance d. The trocar 38 of the present example is longitudinally translatable with respect to the stapling head assembly 20 by means of an adjustment knob 98 located at a proximal end of the actuator cable assembly 70, as will be described in more detail below. Consequently, when the anvil 40 is coupled to the trocar 38, the rotation of the adjustment knob 98 enlarges or reduces the distance of the gap d by acting on the anvil 40 in relation to the staple head assembly 20. For example, as shown sequentially in Figures 2A to 2B, the anvil 40 is shown acting proximally in relation to the actuator cable assembly 70, from an open initial position and to a closed position, thus reducing the gap distance between the two portions of fabric 2 to be joined. When the gap d is placed at a predetermined interval, the staple head assembly 20 can be heated, as shown in Figure 2C, to staple and cut the fabric 2 between the anvil 40 and the staple head assembly 20. The purpose of the stapling head assembly 20 is to staple and cut the fabric 2 by a user by turning a trigger 74 of the actuator cable assembly 70, as will be described in more detail below.
[0041] As noted above, the distance from gap d corresponds to the distance between anvil 40 and the staple head assembly 20. When instrument 10 is inserted into a patient, that distance from gap d may not be easily visible. Consequently, a movable indicator bar 110, shown in Figures 5 to 6, is arranged to be visible through an indicator window 120 positioned in opposition to trigger 74. Indicator bar 110 is intended to move in response to the rotation of the knob. adjustment 98, so that the position of the indicator bar 110 is representative of the distance from the span d. As shown in Figure 6, indicator window 120 further comprises a scale 130 that indicates that the anvil span is in a desired operating range (for example, a green region or "green zone") and a representation of corresponding clamp compression at each end of scale 130. Just as an example, as shown in Figure 6, a first clamp image 132 represents a large clamp height, while a second clamp image 134 represents a small clamp height. Consequently, a user can view the position of the coupled anvil 40 in relation to the stapling head assembly 20 using the indicator bar 110 and the scale 130. The user can then adjust the positioning of the anvil 40 using the adjustment knob. 98, as needed.
[0042] With reference again to Figures 2A to 2C, a user sutures a portion of the fabric 2 around the tubular element 44 so that the anvil head 48 is located in a portion of the fabric 2 to be stapled. When the fabric 2 is attached to the anvil 40, the retaining clips 46 and a portion of the tubular element 44 protrude from the fabric 2, so that the user can couple the anvil 40 to the trocar 38. With the fabric 2 attached to the trocar 38 and / or the other portion of the staple head assembly 20, the user attaches the anvil 40 to the trocar 38 and drives the anvil 40 proximally towards the staple head assembly 20, to reduce the gap gap d. When the instrument 10 is within the operating range, the user then staples the ends of the fabric 2, thereby forming a tubular portion of the fabric 2 substantially contiguous.
[0043] Anvil 40 may additionally be constructed in accordance with at least some of the teachings of US Patent No. 5,205,459, US No. 5,271,544, US No. 5,275,322, US No. 5,285,945, US No. 5,292,053, US No. 5,333,773, US No. 5,350,104 and US No. 5,533,661, the descriptions of which are hereby incorporated by reference, and / or according to other configurations, as will be evident to the technician, in view of the teachings contained here. B. Example of a stapling head assembly
The stapling head assembly 20 of the present example is coupled to a distal end of the stem assembly 60 and comprises a tubular housing 22 housing a sliding staple driver 24 and a plurality of staples 66 contained in the staple pockets 32. Staples 66 and staple pockets 32 are arranged in a circular array around tubular compartment 22. In the present example, staples 66 and staple pockets 32 are arranged in a pair of concentric annular lines of staples 66 and staple pockets 32. O clamp actuator 24 is intended to act longitudinally inside the tubular compartment 22, in response to the rotation of the trigger 74 of the actuator cable assembly 70. As shown in Figures 2A to 2C, the clamp actuator 24 comprises an enlarged cylindrical element having a trocar opening 26, a central recess 28 and a plurality of elements 30 arranged circumferentially around the central recess 28 and extending distally and in relation to the stem assembly 60. Each element 30 is configured to contact, and engage with, a corresponding clamp 66 of the plurality of clamps 66 in the clamp pockets 32. Consequently, when the clamp driver 24 is actuated in a distal position in relation to the actuator cable assembly 70, each element 30 leads a corresponding clamp 66 out of its clamp pocket 32 through a clamp opening 34 formed at a distal end of the tubular housing 22. As each element 30 is extends from the staple driver 24, the plurality of staples 66 is driven out of the staple head assembly 20 at substantially the same time. When the anvil 40 is in the closed position, the staples 66 are carried in staple-forming pockets 52 for flexing the legs 68 of the staples 66, thus stapling the material located between the anvil 40 and the staple head assembly 20. Figure 3 represents a merely exemplary clamp 66 carried by an element 30 in a staple forming pocket 32 of the anvil 40 for flexing the legs 68.
[0045] The staple driver 24 additionally includes a cylindrical knife 36 that is coaxial to the opening of the trocar 26 and insertion of the staple pockets 32. In the present example, the cylindrical knife 36 is arranged inside the central recess 28 to move distally with the staple driver 24. When the anvil 40 is attached to the trocar 38, as described above, the anvil head 48 provides a surface against which the cylindrical knife 36 cuts the material contained between the anvil 40 and the staple head assembly 20 In some versions, the anvil head 48 may include a recess (not shown) for the cylindrical knife 36 to help cut the material (for example, by providing a cooperative cutting edge). In addition, or alternatively, the anvil head 48 may include one or more opposing cylindrical knife knives (not shown) offsetting the cylindrical knife 36 so that it can provide a scissor-like cutting action. Still other configurations will be evident to those skilled in the art, in view of the teachings contained herein. The stapling head assembly 20 thus functions both to staple and to cut fabric 2, substantially simultaneously, in response to actuation by the actuator cable assembly 70.
[0046] It is clear that the stapling head assembly 20 can be additionally constructed in accordance with at least some of the teachings of US Patent No. 5,205,459, US No. 5,271,544, US No. 5,275,322, US n No. 5,285,945, US No. 5,292,053, US No. 5,333,773, US No. 5,350,104 and US No. 5,533,661, the descriptions of which are hereby incorporated by reference, and / or in accordance with other configurations, as will become evident to those versed in the technique, in view of the teachings contained herein.
[0047] As noted earlier, the clip driver 24 includes an opening for trocar 26. The opening for trocar 26 is configured to allow trocar 38 to slide longitudinally with respect to staple head assembly 20 and / or stem assembly 60 As shown in Figures 2A to 2C, trocar 38 is coupled to a trocar actuator 39 so that trocar 38 can be activated longitudinally by rotating the knob 98, as will be described in more detail below with reference to the set actuator cable 70. In the present example, trocar actuator 39 comprises an elongated, relatively rigid stem coupled to trocar 38, although this is purely optional. In some versions, actuator 39 may comprise a longitudinally rigid material while allowing lateral flexion, so that portions of the instrument 10 can be selectively bent or curved during use, or the instrument 10 may include a bent stem assembly predefined 60. A purely exemplary material is nitinol. When the anvil 40 is coupled to the trocar 38, the trocar 38 and the anvil 40 are translatable through the actuator 39 to adjust the gap d between the anvil 40 and the staple head assembly 20. Still other additional configurations for the actuator 39 longitudinally activates the trocar 38 will be evident to the person skilled in the art, in view of the teachings contained herein. C. Example of stem assembly
[0048] Stapling head assembly 20 and trocar 38 are positioned at a distal end of stem assembly 60, as shown in Figures 2A to 2C. The stem assembly 60 of the present example comprises an outer tubular element (62) and a drive actuator 64. The outer tubular element (62) is coupled to the tubular liner 22 of the staple head assembly 20 and a body 72 of the assembly actuator cable 70, thus offering mechanical support for the actuator components contained therein. The proximal end of the drive actuator 64 is coupled to a trigger drive assembly 84 of the actuator cable assembly 70, described below. The distal end of the drive actuator 64 is coupled to the clip driver 24 so that the rotation of the trigger 74 longitudinally activates the clip driver 24. As shown in Figures 2A to 2C, the drive actuator 64 comprises a tubular element having a longitudinal axis open so that the drive 39 coupled to the trocar 38 can drive longitudinally and in relation to the drive actuator 64. It should be understood, of course, that other components may be arranged inside the drive actuator 64, as will become evident to the person skilled in the art, in view of the teachings contained herein.
[0049] Stem assembly 60 may additionally be constructed in accordance with at least some of the teachings of US Patent No. 5,205,459, US No. 5,271,544, US No. 5,275,322, US No. 5,285,945, US No. 5,292,053, US No. 5,333,773, US No. 5,350,104 and US No. 5,533,661, the descriptions of which are hereby incorporated by reference, and / or according to other configurations, as will be evident to the person skilled in the art, in view of the teachings contained herein. D. Example of actuator cable assembly
[0050] Now with reference to figures 4A to 5, the actuator cable assembly 70 comprises a body 72, a trigger 74, a locking feature 82, a trigger drive assembly 84 and a trocar drive assembly 90. The trigger 74 of the present example is pivotally mounted to body 72e and is coupled to trigger drive assembly 84 so that rotation of trigger drive 74 from an un triggered position (shown in Figure 4A) to a triggered position (shown in Figure 4B) activate the drive actuator 64 described above. A spring (78) is coupled to the body 72 and the trigger 74 to tilt the trigger 74 towards the non-fired position. The locking feature 82 is a pivoting element that is coupled to the body 72. In a first, locked position, the locking feature 82 is rotated upwards and in the opposite direction of the body 72 so that the locking feature 82 engages the trigger 74 and mechanically resists triggering 74 by a user. In a second unlocked position, as shown in Figures 1 and 4B, the locking feature 82 is turned down so that the trigger 74 can be operated by the user. Consequently, with the locking feature 82 in the second position, the trigger 74 can engage a trigger drive assembly 84 to fire the instrument 10.
[0051] As shown in Figures 4A and 4B, the trigger drive assembly 84 of the present example comprises a sliding trigger carriage 86 engaged with a proximal end of the drive actuator 64. The carriage 86 includes a set of tabs 88 in one proximal end of carriage 86 to retain and engage a pair of trigger arms 76 extending from trigger 74. Consequently, when trigger 74 is rotated, carriage 86 is driven longitudinally and transfers longitudinal motion to the actuator 64. In the example shown, the trolley 86 is fixedly coupled to the proximal end of the drive actuator 64, although this is purely optional. In fact, in a purely alternative example, the trolley 86 may simply be in a position bordering the drive actuator 64, while a distal spring (not shown) tilts the drive actuator 64 proximally to the actuator cable assembly 70.
[0052] Trigger drive assembly 84 may additionally be constructed in accordance with at least some of the teachings of US Patent No. 5,205,459, US No. 5,271,544, US No. 5,275,322, US No. 5,285. 945, US No. 5,292,053, US No. 5,333,773, US No. 5,350,104 and US No. 5,533,661, the descriptions of which are hereby incorporated by reference, and / or according to other configurations, as it will be evident to those versed in the technique, in view of the teachings contained herein.
[0053] The body 72 also houses a trocar drive assembly 90 configured to drive the trocar 38 longitudinally, in response to the rotation of the adjustment knob 98. As best shown in Figures 4A to 5, the trocar drive assembly 90 of the present example comprises the adjusting knob 98, a splined stem 94 and a sleeve 92. The splined stem 94 of the present example is located at a distal end of the trocar actuator 39, although it should be understood that the splined stem 94 and the actuator trocar 39 can alternatively be separate components that engage to transmit longitudinal movement. The adjustment knob 98 is pivotally supported by the proximal end of the body 72, and functions to rotate the sleeve 92 which is engaged with the splined rod 94 by means of an internal flap (not shown). The splined shaft 94 of the present example comprises a continuous groove 96 formed on the outer surface of the splined shaft 94. Consequently, when the adjusting knob 98 is rotated, the inner flap moves within the groove 96 and the splined shaft 94 is actuated longitudinally. in relation to sleeve 92. Since the splined stem 94 is located at the distal end of the trocar actuator 39, turning the adjustment knob 98 in a first direction advances the trocar actuator 39 distally in relation to the actuator cable assembly 70. Consequently , the gap d between the anvil 40 and the stapling head assembly 20 is increased. By turning the adjustment knob 98 in the opposite direction, the trocar actuator 39 is actuated proximally to the actuator cable assembly 70 to reduce the gap d between the anvil 40 and the staple head assembly 20. Thus, the trocar drive assembly 90 is intended to drive trocar 38 in response to b rotary adjustment knob 98. Of course, other configurations for the trocar set 90 will be evident to the person skilled in the art, in view of the teachings contained herein.
The groove 96 of the present example comprises a plurality of different portions 96A, 96B, 96C that have a different range or number of grooves by axial distance. The groove present 96 is divided into a distal portion 96A, a middle portion 96B and a proximal portion 96C. As shown in Figure 5, a distal portion 96A comprises a fine pitch or a high number of grooves along a short axial distance from the splined shaft 94, so that a large number of rotations of the adjusting knob 98 are required to traverse the short axial distance. The middle portion 96B comprises a section with comparably thicker gap or less grooves per axial distance so that relatively few rotations are required to traverse a long axial distance. Consequently, the distance from the span d can be quickly reduced by relatively few rotations of the adjusting knob 98. The proximal portion 96C of the present example is substantially similar to the distal portion 96A and comprises a narrow gap or a high number of grooves for a short time. axial distance of splined shaft 94 so that a large number of revolutions are required to traverse the short axial distance. The proximal portion 96C of the present example is positioned on sleeve 92 when the anvil 40 is substantially close to the staple head assembly 20 so that an indicator bar 110 moves within the indicator window 120 along the scale 130 to indicate that the gap of the anvil is within a desired operating range, as will be described in detail below. Consequently, when the flap is within the proximal portion (96C) of the groove 96, each rotation of the adjustment knob 98 can reduce the distance of the span d to a small amount to provide fine tuning.
[0055] The trocar set 90 can be additionally constructed in accordance with at least some of the teachings of US Patent No. 5,205,459, US No. 5,271,544, US No. 5,275,322, US No. 5,285. 945, US No. 5,292,053, US No. 5,333,773, US No. 5,350,104, US No. 5,533,661, the descriptions of which are hereby incorporated by reference, and / or in accordance with other configurations, as it will be evident to those versed in the technique, in view of the teachings contained herein.
[0056] In the example shown in Figures 4A to 4B, a U-100 clip is attached to an intermediate portion of the trocar actuator 39 located distally from the splined stem 94. The U-100 clip engages with a portion of body 72 to substantially prevent the trocar actuator 39 from rotating around its axis when the adjusting knob 98 is turned. The U-shaped clip 100 also includes an elongated slot 102 on each of its opposite sides, to receive a fastening element, such as a screw, bolt, pin, clip, etc., to selectively adjust the longitudinal position of the elongated slot 102 of the U-shaped clip 100 in relation to the trocar actuator 39, for the purpose of calibrating the indicator bar 110 in relation to the 130 scale.
[0057] As shown in Figure 5, the actuator cable assembly 70 also includes an indicator bracket 140 configured to engage and rotate an indicator 104. The indicator bracket 140 of the present example is slid in relation to the body 72 along a pair of slits formed in the body 72. The indicator bracket 140 comprises a rectangular plate 144, an indicator arm 146 and an angled flange 142. The angled flange 142 is formed at the proximal end of the rectangular plate 144, and includes an opening (not shown) to be slidably mounted on the trocar actuator 39 and / or the splined stem 94. A spiral spring 150 is interposed between the flange 142 and a protrusion 152 to tilt the flange 142 against the U-shaped clip 100. Consequently, when the U-shaped clip 100 acts distally with the trocar actuator 39 and / or the splined rod 94, the spiral spring 150 forces the indicator bracket 140 to move distally with the U-shaped clip 100. In addition to therefore, the U-shaped clip 100 forces the indicator bracket 140 proximally to the projection 152, when the trocar actuator 39 and / or the splined stem 94 move proximally, thus compressing the spiral spring 150. Of course, you should understand that, in some versions, the indicator bracket 140 may be fixedly attached to the trocar actuator 39 and / or the grooved rod 94.
[0058] In the present example, a portion of the locking feature 82 is contiguous with a surface 141 of the indicator bracket 140, when said indicator bracket 140 is in a longitudinal position that does not correspond to when the anvil gap is within a desired operating range (for example, a green colored region or "green zone"). When the anvil span is within a desired operating range (for example, a green colored region or "green zone"), indicator bracket 140 tunes to provide a pair of spans 145 on either side of an indicator arm 146 which allows lock feature 82 to rotate, thereby releasing trigger 74. Consequently, lock feature 82 and indicator bracket 140 can substantially prevent a user from releasing and operating trigger 74 until anvil 40 is in a range of predetermined operation. It should be understood, of course, that the blocking feature 82 can be omitted entirely in some versions.
[0059] This operating range can be visually communicated to the user by means of an indicator bar 110 of an indicator 104 shown against a scale 130, briefly described above. At the distal end of the index bracket 140 is a distally projected index arm 146 that ends at a laterally projected finger (148) to control the movement of the index 104. The index arm 146 and the finger (148), best shown in Figure 5, are configured to engage a tab (106) of indicator 104, so that indicator 104 is rotated when indicator bracket 140 is longitudinally actuated. In the present example, indicator 104 is pivotally coupled to body 72 at a first end of indicator 104, although this is purely optional, and other pivot points of indicator 104 will be evident to those skilled in the art, in view of the teachings contained herein. . An indicator bar 110 is positioned at the second end of indicator 104 so that indicator bar 110 moves in response to triggering of indicator bracket 140. Consequently, as discussed above, indicator bar 110 is displayed through an indicator window 120 against a scale 130 (shown in Figure 6) to show the relative distance of the gap d between the anvil 40 and the staple head assembly 20.
[0060] It is clear that the indicator bracket 140, the indicator 104 and / or the actuator cable assembly 70 can be additionally constructed in accordance with at least some of the teachings of US patents No. 5,205,459, US No. 5,271,544 , US No. 5,275,322, US No. 5,285,945, US No. 5,292,053, US No. 5,333,773, US No. 5,350,104 and US No. 5,533,661, the descriptions of which are hereby incorporated herein. reference, and / or according to other configurations, as will be evident to the person skilled in the art, in view of the teachings contained herein. II. Examples of trigger ratchet features
[0061] In some cases, it may be preferable to prevent trigger 74 from rotating back to an un-fired position when trigger 74 is only partially activated. For example, if trigger 74 is initially rotated, staples 66 can be guided out of staple head assembly 20, but have yet to be inserted into staple-forming pockets 52. Consequently, staples 66 can be partially embedded in the fabric (2), but legs 68 can protrude out of fabric 2 when trigger 74 is still in the middle of a firing motion. If the trigger 74 is prematurely released, thereby retracting the clip driver 24, the clips 66 may remain buried in the fabric 2 in an unformed configuration, and will not have joined the fabric 2 by stapling. In addition, if the user tries to fire the device again, the clips 66 may have misaligned, so that the clip driver 24 cannot engage completely with the clips 66, and / or so that the clips 66 are no longer aligned with the staple-forming pockets 52. This can result in malformed staples 66, incompletely folded staples 66, etc. In addition, with the knife 36 also engaged, a portion of fabric 2 that was not intended to be cut may occur. Consequently, several ratchet features can be used with the trigger 74 in order to prevent it from returning from the non-triggered position until it has completed a full firing movement. In some versions, it may be useful to also include a release feature to disengage the ratchet mechanism before complete engagement. Such release features can be used to abort the stapling procedure, if necessary. A. Example of a rotating ratchet assembly
[0062] Figure 7 represents a set of exemplary alternative actuator cable 200, for the surgical stapling instrument 10 described above. In the present example, the actuator cable assembly 200 comprises a body 202, a trigger 210 and an adjustment knob 220. The body 202, trigger 210, adjustment button 220 and / or the actuator cable assembly 200 can be constructed according to at least some of the teachings of body 72, trigger 74, adjustment knob 98 and / or actuator cable assembly 70 described above. The trigger 210 of the present example is pivotally mounted to the body 202 and is coupled to a rotary ratchet assembly 230. The trigger 210 of the present example further includes a return spring (not shown) functions to force the trigger 210 back to the non-fired position, although this is purely optional. The rotating ratchet assembly 230 comprises a plurality of teeth 232 and a tongue 240. Teeth 232 are arranged around a pivot end 212 of trigger 210 and include an initial tooth 234 and an end tooth 238.
[0063] The initial tooth 234 can be engaged with the tongue 240 when the trigger 210 is in the initial position, not fired, although it is merely optional. In some versions, the initial tooth 234 can be arranged on the pivot end 212 so that the tongue 240 does not engage the initial tooth 234 until the trigger 210 is rotated a predetermined distance. For example, this assembly can be configured so that the initial tooth 234 only engages with the tongue 240 after the trigger 210 has activated a clamp trigger, and clamps, to a predetermined point. For example only, can this predetermined point be when staples, such as staples 66, protrude out of a distal end of a staple head assembly, such as staple head assembly 20. Alternatively, that predetermined point it may be after the staples protrude out of the staple head assembly and puncture the fabric, after the staples begin to engage a plurality of staple forming pockets, or at any point after the staples begin to exit the head assembly stapling. In another version, the predetermined point may be before the staples protrude from the staple head assembly. Still other positions and configurations for the initial tooth 234 will be evident to the person skilled in the art, in view of the teachings contained herein.
[0064] The plurality of teeth 232 end in a final tooth 238 positioned at a circumferential point at the pivot end 212 which is different from the initial tooth 234. As the trigger 210 is rotated towards the fired position, as shown in Figure 4, the tongue 240 engages successively with the interposed teeth 232 until the final tooth 238. The final tooth 238 can correspond to when the trigger 210 is in the fired position or, alternatively, the final tooth 238 can be positioned in any other corresponding position. In the first instance, if trigger 210 is released before trigger 210 is fully engaged, teeth 232 engage latch 240, described below, and prevent trigger 210 from returning from the non-triggered position. Trigger 210 can then be retracted and firing can be completed. End tooth 238 keeps trigger 210 in the triggered position until release button 250, described below, is rotated to disengage latch 240. In versions without release button 250, end tooth 238 keeps trigger 210 in triggered position even when trigger 210 is released after a full firing. The user can then remove the surgical instrument, leaving behind the stapled tubular tissue 2.
[0065] In the second instance noted above, the final tooth 238 may not match the trigger position of trigger 210. For example, the final tooth 238 can be positioned at a point where the staples begin to engage the staple forming pockets. Consequently, if trigger 210 is released at that point, the staples begin to enter the staple forming pockets and the staple driver can remain engaged with the staples. The user can then finish turning the trigger 210 to completely form the clamps. This position of the final tooth 238 can be advantageous if it is necessary to repeatedly activate the trigger 210 to cut off any excess tissue 2. Of course, other intermediate positions for the final tooth 238 will be evident to those skilled in the art, in view of the teachings contained herein. .
[0066] In yet another alternative, the final tooth 238 can be separated from an intermediate intermediate tooth 236. For example, the intermediate intermediate tooth 236 can be positioned according to a point where the staples begin to engage the staple forming pockets, as described above. Consequently, if repeated triggering of trigger 210 is necessary, the ratchet assembly 230 can catch terminal end tooth 236 to prevent trigger 210 from returning to the un-fired position. End tooth 238 secures trigger 210 in the end position to prevent trigger 210 from returning to the non-triggered position.
[0067] The gap described above between the intermediate intermediate tooth 236 and the final tooth 238 can also be used to provide audible, tactile, visual and / or other sensory feedback to a user with respect to the position of the trigger 210 in relation to the firing of the staple driver. For example, teeth 232 can be configured to provide an audible and tactile "click" when interconnecting tongue 240. In addition, or alternatively, electrical contacts can be positioned on teeth 232 to engage a complementary electrical contact on tongue 240 For example, the initial tooth 234 can light a green LED to indicate the initial engagement of the trigger 210, the interposed teeth 232 before the final tooth 238 can light a yellow LED indicating incomplete firing and the engagement of the final tooth 238 can light an LED red indicating complete firing. It should be understood, of course, that other configurations and uses for the ratchet assembly 230 will be evident to the person skilled in the art.
[0068] The tongue 240 of the present example comprises a spring-driven cam tooth that engages teeth 232 to prevent trigger 210 from rotating back to the non-triggered position. In the present example, tongue 240 is coupled to a release button 250. Release button 250 extends out of body 202 so that a user can rotate release button 250 to disengage tongue 240 from teeth 232. Consequently , if trigger 210 initially engages teeth 232, release button 250 can be used to unlock trigger 210 to return to the non-triggered position. In addition, if trigger 210 has been fully fired and tissue 2 is attached to the knife and / or to any other portion of the staple head assembly, release button 250 can be used to release trigger 210 in order to release the surgical instrument from the tissue (2). Still other constructions for the tongue 240 and / or the release button 250 will be evident to the person skilled in the art, in view of the teachings contained herein. For example, the release button 250 could comprise a sliding element with an integral rack that is coupled to the tongue 240, a push button that is coupled to the tongue 240 by means of a rack or connection, and / or otherwise.
[0069] In some versions, the rotary ratchet set 230 can be configured as a linear ratchet set. For example, trigger 210 may engage and drive a rack gear, such as rack gear 714 described below with reference to Figures 14A to 14C. The tongue 240 then engages the rack gear in a manner similar to that occurring with teeth 232 of the rotary ratchet assembly 230. Furthermore, it should be understood that the tongue 240 may be arranged inside or against the trigger 210, and the teeth 232 can be arranged inside or against the body 202, so that the rotation of the trigger 210 causes a rotation of the tongue 240 and the engagement of the teeth 234, 236, 238. Of course, the aforementioned configurations are merely examples, and alternative ratchet sets will be evident to those versed in the technique, in view of the teachings contained herein. B. Alternative ratchet assembly
[0070] Figure 8 represents an alternative actuator cable assembly 300, which has an exemplary alternative ratchet assembly 330 for the surgical stapling instrument 101010 described above. In the present example, the actuator cable assembly 300 comprises a body 302, a trigger 310 and an adjustment knob 320. Body 302, trigger 310, adjustment button 320 and / or the actuator cable assembly 300 can be constructed according to at least some of the teachings of body 72, trigger 74, adjustment knob 98 and / or actuator cable assembly 70 described above. The trigger 310 of the present example is pivotally mounted to the body 302, and is coupled to an arcuate element 332 having a plurality of teeth 334. In some versions, the trigger 310 may include a return spring (not shown) that functions in order to force the trigger 310 back to the non-fired position.
[0071] The ratchet assembly 330 comprises the arcuate element 332 and a latch 340 that engages and prevents the trigger 310 from rotating back to an unchained position. As an example only, the ratchet assembly 330 can be configured similarly to the ratchet assembly present in handcuffs and / or plastic clamps. The arcuate element 332 is curved so that each successive tooth, between the teeth 334, engages with the tongue 340. Consequently, as the trigger 310 is turned towards the body 302, the teeth 334 engage with the tongue 340 and then , lock trigger 310 so that it does not return to the non-triggered position. Teeth 334 can additionally be constructed in accordance with at least some of the teachings on teeth 232 described above.
[0072] The tongue 340 of the present example comprises a spring-loaded rotating tooth, which engages and locks the teeth 334. A release tab 342 extends from the tongue 340. When a release tab 342 is rotated clockwise (in relation to the view shown in Figure 8), the tongue 340 disengages from the teeth 334, so that the trigger 310 can return to the un-fired position. In the present example, a release assembly 350 is pivotally mounted on the body 302, via pivot point 358, and includes an outer element 352 and an inner pivot element 354. In the present example, the inner pivot element 354 it is configured to be in a position bordering the release flap 342, on a distal side of the release flap 342. Consequently, as will be evident to the person skilled in the art, in view of the teachings contained herein, when the internal articulated element 354 is turned in the opposite direction. counterclockwise (in relation to the view shown in Figure 8) around hinge point 358, inner hinge element 354 engages and rotates release tab 342 to release tongue 340 from teeth 334. Hinge element 354 is fixedly attached to the outer element 352. Consequently, when the outer element 352 is pushed into the body 302, the outer element 352 rotates the inner pivot element 354 around the pivot point 358 to disengage r the tongue 340. Of course, other provisions for the release set 350 will be evident to the person skilled in the art, in view of the teachings contained herein.
[0073] In the example shown, the outer element 352 includes a rupture flap 356 that secures the outer element 352 in relation to the body 302. Just as an example, the rupture flap 356 can extend distally and be in a position bordering on an outer surface of the body 302 and / or the rupture flap 356 can be integrally formed with the body 302. The rupture flap 356 can comprise a plastic element that is configured to break when sufficient force is applied to the outer element 352. Consequently, an outer element 352 can be prevented from being pushed in with respect to the body 302 until the rupture flap 356 is broken. This rupture tab 356 can prevent inadvertent releases of the tongue 340. It is clear that other components for securing the outer element 352 in relation to the body 302 will be evident to the person skilled in the art, in view of the teachings contained herein. For example, spring-loaded latches, sliding latches, screws, pins, clips, clamps, adhesives, etc. can be used.
[0074] Additional configurations for the actuator cable set 300 and / or the ratchet set 330 will be evident to the person skilled in the art, in view of the teachings contained herein. C. V-shaped turnstile set
[0075] Figures 9 and 10 represent an alternative actuator cable set 400, which has an exemplary V430 ratchet set, for the surgical stapling instrument 101010 described above. In the present example, the actuator cable assembly 400 comprises a body 402, a trigger 410 and an adjustment knob 420. The body 402, trigger 410, adjustment button 420 and / or the actuator cable assembly 400 can be constructed according to at least some of the teachings of body 72, trigger 74, adjustment knob 98 and / or actuator cable assembly 70 described above. The trigger 410 of the present example is pivotally mounted to the body 402 and is coupled to a first ratchet element 432 having one or more V-shaped teeth 434. In some versions, the trigger 410 may include a return spring (not shown) that works to force the trigger 410 back to the non-fired position.
[0076] The V 430 ratchet assembly of the present example comprises a two-piece assembly with a first ratchet element 432 fixedly attached to the trigger 410 and a second ratchet element 440 longitudinally mounted slidably to the body 402. O The first ratchet element 432 comprises one or more V-shaped teeth 434, configured to engage one or more V-shaped teeth 442 in the second ratchet element 440, which complement the V-shaped teeth 434. In the present example, V-shaped teeth 434, 442 comprise deformable or otherwise semi-flexible teeth, so that an application of lateral force in relation to teeth 434, 442 can deform a portion of each tooth, while an application of vertical force in with respect to teeth 434, 442 does not deform them. It is clear that teeth 434, 442 may have other shapes, such as teeth 534 shown in Figure 11, or any other shape, as will be evident to the person skilled in the art, in view of the teachings contained herein. Consequently, as trigger 410 is rotated to fire the instrument, teeth 434, 442 engage to prevent trigger 410 from returning to the non-triggered position.
[0077] The second ratchet element 440 of the present example is slidably mounted to the body 402 so that the second ratchet element 440 can be driven longitudinally in relation to the body 402 and / or the first ratchet element 432. In the example shown , the second ratchet element 440 includes a pin 444 which moves within a groove 404 formed in the body 402. Consequently, if the second ratchet element 440 is engaged with the first ratchet element 432 and a user wishes to release the trigger 410 , the user takes the pin 444 and slides the second ratchet element 440 distally from the first ratchet element 432. Consequently, as shown in Figure 10, the teeth 442 of the second ratchet element 440 can slide longitudinally in relation to the teeth 434 of the first ratchet element 432 and / or partially deform teeth 434, 442 until teeth 434, 442 are free of each other. Trigger 410 can then be returned to the non-triggered position or any intermediate position. This activation can be carried out automatically through the return spring of the trigger 410.
[0078] With reference again to Figure 9, the groove 404 includes a stopper 406 that prevents the longitudinal actuation of the pin 444 until sufficient force is applied. In this way, the detent 406 can prevent inadvertent longitudinal movement of the second ratchet element 440. In addition, or alternatively, the second ratchet element 440 can be coupled to a spring 448 for tilting the second ratchet element 440 proximally. Consequently, the user may need to overcome one or both of the detent 406 and spring 448 to drive the second ratchet element 440 distally to disengage the V-shaped ratchet assembly 430. In addition, a cam ramp 436 or pin may extend from the first ratchet element 432 to move the bolt 444 distally once the trigger 410 is fully engaged, thus automatically releasing the second ratchet element 440. Of course, the V-shaped ratchet assembly 430 and / or the assembly actuator cable 400 can be additionally configured according to the ratchet sets of hemostatic forceps, needle holder, mosquito clamps and / or any other way, as will be evident to the person skilled in the art, in view of the teachings contained herein. III. Examples of ratchet features with automatic release
[0079] Although the aforementioned examples discussed exemplary ratchet assemblies to secure the trigger 74 during a firing movement and prevent it from returning to the non-firing position, in some cases it may be useful for a user to have an automatic release mechanism, a once the trigger is fully engaged. Although the following examples are discussed with reference to other examples of trigger ratchet assemblies, it should be understood that the following automatic release assemblies can be incorporated into the previously discussed ratchet assemblies. A. Example of a rotating ratchet assembly with ramp release
[0080] Figures 11 and 12 show yet another set of actuator cable 500, having a set of rotating ratchet 530, for the surgical stapling instrument 10 described above. In the present example, the actuator cable assembly 500 comprises a body 502 and a trigger 510. The body 502, the trigger 510 and / or the actuator cable assembly 500 can be constructed in accordance with at least some of the teachings of the body 72, trigger 74 and / or actuator cable assembly 70 described above. The trigger 510 of the present example is pivotally mounted to the body 502 and is coupled to a circular ratchet element 532 of the ratchet assembly 530. In some versions, the trigger 510 may include a return spring (not shown) that works in order to force the trigger 510 back to the non-fired position.
[0081] As shown in Figure 11, the ratchet assembly 530 comprises the circular ratchet element 532 coupled to the trigger 510 and a tongue or tension arm 550. The tongue 550 comprises a toothed element configured to engage one or more teeth 534 of the ratchet element 532 to prevent the trigger 510 from returning to an un-fired position. The tongue 550 can be further configured according to the fingers (240, 340) shown in the present invention and / or otherwise. In the present example, the ratchet element 532 comprises a plurality of teeth 534 arranged around the circumferential surface of the ratchet element 532. With reference to figure 12, the ratchet element 532 is coupled to the trigger 510 by a pair of axes 536 inserted in the holes 512 formed in the trigger 510. The axes 536 and the holes 512 are configured so that the ratchet element 532 can act laterally in relation to the trigger 510 and also rotate with the trigger 510. In some versions, the axes 536 can be project out of the holes 512 and include an enlarged end (not shown) to prevent the ratchet element 532 from being released from the trigger 510.
[0082] An inner surface 540 of the ratchet element 532 also includes a ramp 542 configured to project against an internal element 504 of the body 502. The ramp 542 of the present example is positioned so that the apex of the ramp 542 engages the inner element 504 when trigger 510 is fully engaged. It should be understood, of course, that the ramp 542 can reach the apex point in other positions of the firing movement, too. In addition, the height of the ramp 542 is dimensioned so that, when the apex of the ramp 542 engages the inner element 504, the ratchet element 532 is laterally moved along the axes 536 by a sufficient distance to disengage the tongue 550. Consequently , as the ratchet element 532 is rotated by the trigger 510, the ramp 542 engages the inner element 504 and the ratchet element 532 is forced to slide out of the axes 536 towards the trigger 510. When the trigger 510 is fully engaged , which corresponds to fully triggering the instrument, then the ratchet element 532 is completely disengaged from the tongue 540 and the trigger 510 can be rotated back to the non-triggered position. In some versions, the user can realign the ratchet element 532 with the tongue 540 by pushing the ratchet element 532 inward through the projecting axes 536. In other versions, the ratchet element 532 can be pushed inward by middle of a spring (not shown) and a clip that can be selectively released (not shown) can lock the ratchet element 532 against the trigger 510 when the trigger 510 is returned to the non-triggered position. Still other constructions for ratchet set 530 and / or set of actuator cable 500 will be evident to those skilled in the art, in view of the teachings contained herein. B. Example of trocar set with ratchet and trigger release
[0083] Figures 13A and 13B represent yet another set of actuator cable 600 that has a set of linear ratchet 630 for the surgical stapling instrument 101010 described above. In the present example, the actuator cable assembly 600 comprises a body 602 and a trigger 610. The body 602, the trigger 610 and / or the actuator cable assembly 600 can be constructed in accordance with at least some of the teachings of the body 72, trigger 74 and / or actuator cable assembly 70 described above. The trigger 610 of the present example is pivotally mounted to the body 602 and is coupled to a trocar release element 632 of the ratchet assembly 630. In some versions, the trigger 610 may include a return spring (not shown) that works in order to force the trigger 610 back to the non-fired position.
[0084] In the present example shown in Figure 13A, the linear ratchet set 630 comprises a ratchet with ratchet 650 and a trocar release element 632. Trocar 650 extends longitudinally within body 602 and includes a plurality of ratchet teeth 652 formed on an outer surface of the trocar 650. The trocar 650 can be additionally constructed in accordance with at least some of the teachings of trocar 38 described above. The trocar release element 632 is pivotally coupled to the trigger 610 at a first end 634, and coupled to a spring 638 at a second end 636. An opening 640 is formed by releasing the trocar 632, so that the trocar 650 extends through it. An upper edge 642 of aperture 640 is configured to engage teeth 652 of trocar 650 so that it cannot be operated distally when upper edge 642 is engaged with teeth 652. Spring 638 forces the release of trocar 632 to low, in order to keep the upper edge 642 in engagement with the teeth 652. Consequently, as the trocar 650 is activated proximally to close the anvil gap, discussed above, the linear ratchet assembly 630 prevents the trocar 650 from activating in a substantially distal position. If a user only partially triggers trigger 610 and releases trigger 610, then the anvil span will not be affected so that any partially triggered clamp must substantially maintain its position until trigger 610 is fully triggered later. If a user needs to reposition the trocar 650, a user can manually trigger the release of trocar 632 to disengage the upper edge 642 from teeth 652. Just as an example, a sliding element, button, etc. can be provided to allow the user to manually trigger the 632 trocar release without having to trigger the 610 trigger.
[0085] When the trocar 650 is positioned in a desired position, the trigger 610 is activated to fire the device. When trigger 610 reaches the fully fired position, trigger 610 triggers the release of trocar 632 upward, as shown in Figure 13B. This disengages the upper edge 642 from the teeth 652, thus allowing the trocar 650 to act distally to increase the anvil span. In some versions, a clip or holder (not shown) can engage the upper edge 642 to secure the trocar release 632 in the position shown in Figure 13B even if the trigger 610 is pulled back to the non-triggered position. In addition, or alternatively, teeth 652 can be provided in a drive actuator, such as drive actuator 64 described above, so that the ratchet assembly 630 is intended to provide a ratchet system for firing the device. Of course, other configurations or operations for the ratchet set 630 will also be evident to the person skilled in the art, in view of the teachings contained herein. C. Example of screen door locking assembly
[0086] Figures 14A to 14C represent an actuator cable assembly 700 having a screen door locking assembly 730 for the surgical stapling instrument 10 described above. In the present example, the actuator cable assembly 700 comprises a body 702 and a trigger 710. The body 702, the trigger 710 and / or the actuator cable assembly 700 can be constructed in accordance with at least some of the teachings of the body 72, trigger 74 and / or actuator cable assembly 70 described above. The trigger 710 of the present example is pivotally mounted to the body 702 and is coupled to a sprocket 712. In some versions, the trigger 710 may include a return spring (not shown) that works to force the trigger 710 of returns to the non-triggered position, although this is purely optional.
[0087] With reference initially to Figure 14A, the trigger 710 and the sprocket 712 are configured to engage and drive a rack gear 714 mounted on a drive actuator 716. The drive actuator 716 of the present example can be additionally constructed according to the drive actuator 64 described above. When trigger 710 is in the non-triggered position, as shown in Figure 14A, sprocket 712 is engaged with the distal end of rack gear 714. As trigger 710 is rotated toward the triggered position, shown in Figures 14B and 14C , the sprocket 712 meshes and drives the rack gear 714 and the drive actuator 716, distally. A return spring 718 is coupled to a proximal end of the drive actuator 716 to provide a proximal tilt that forces the drive actuator 716 and the trigger 710 toward the un-fired position. It is clear that other components and / or drive assemblies that couple the trigger 710 to the drive actuator 716 will be evident to the person skilled in the art, in view of the teachings contained herein.
[0088] The screen door locking assembly 730 comprises a pivoting element of the screen door washer 740, which engages an external surface of the actuator actuator 716 and serves as a lock. In some cases, the screen door washer element 740 may be constructed similarly to the latch provided on a screen door piston, although it is purely optional. In the present example, a row of teeth 720 is arranged on the outer surface of the drive actuator 716, to additionally engage and secure the washer element of the screen door 740 in relation to the drive actuator 716. It is to be understood, of course, which may be included, additionally or alternatively, a series of indentations, ribs, undulations and / or others. A firing return feature 722 and a firing end feature 724, described in more detail below, are positioned at opposite ends of the tooth row 720. The washer element of the screen door 740 is pivotally mounted to the body 702 , at a first end 742. A second end 744, opposite the first end 742, is coupled to a door spring 750 mounted to the body 702. The door spring 750 tilts the washer element of the screen door 740 proximally in in relation to the body 702. The washer element of the screen door 740 further includes a central longitudinal opening 746 (shown in dashed line) and a flap 748 (shown in dashed line). In the present example, the central longitudinal opening 746 is dimensioned to allow the drive actuator 716 to extend through the screen door washer element 740, even when the screen door washer element 740 is rotated from a first position, shown in Figure 14A, to a second position, shown in Figure 14C. The flap 748 is configured to engage teeth 720 in order to prevent the drive actuator 716 from translating proximally when firing begins. As shown in the sequence of Figures 14A and 14B, as the trigger 710 is rotated to fire the instrument, the flap 748 successively engages the teeth 720 as the drive actuator 716 is translated distally by the sprocket wheel 712 and the rack gear 714.
[0089] Now with reference to Figure 14C, the firing termination feature 724 is positioned at one end of the row of teeth 720 so that the firing termination feature 724 engages washer element of screen door 740 when trigger 710 is rotated to the fully triggered position. In the present example, the firing termination feature 724 comprises a block adjoining a proximal face of the washer element of the screen door 740 to push the washer element of the screen door 740 distally against the proximal inclination provided by the spring of the door 750. As the washer element of the screen door 740 is rotated to the second position by the firing termination feature 724, the second end 744 meets a stop 704. The stop 704 is formed inside the body 702 and is positioned to engage and secure the screen door washer element 740 in the second position shown in Figure 14C. When the washer element of the screen door 740 is rotated to the second position, the flap 748 is disengaged from the teeth 720. Consequently, the actuator actuator 716 and the trigger 710 can return to the non-triggered position after a completed firing by tilting proximal provided by return spring 718.
[0090] As the actuator actuator 716 approaches the end of its proximal translation after a completed firing, firing the return feature 722 engages a distal face of the washer element of the screen door 740. In the present example, firing the firing feature return 722 comprises a block which adjoins the distal face of the washer element of the screen door 740 to push the washer element of the screen door 740 proximally against the stop 704. When the second end 744 of the washer element of the screen door 740 overtakes holder 704, actuator actuator 716 and trigger 710 are positioned back in the non-triggered position, shown in Figure 14A. The instrument can then be removed from the patient. In some versions, a new staple cartridge can be inserted into the device for subsequent use. Of course, still other configurations of the screen door locking assembly 730 and / or the actuator cable assembly 700 will be evident to the person skilled in the art, in view of the teachings contained herein. D. Example of ratchet assembly with automatic return
[0091] Figures 15A to 18B represent yet another example of an actuator cable assembly 800 with a ratchet assembly with automatic return 830 for the surgical stapling instrument 10 described above. In the present example, the actuator cable assembly 800 comprises a body 802, a trigger 810 (best shown in Figures 15A and 15B), a trigger drive assembly 820 and a drive actuator 840. Body 802, trigger 810, the trigger drive set 820, the drive actuator 840 and / or actuator cable set 800 can be constructed according to at least some of the teachings of body 72, trigger 74, trigger drive set 84, drive actuator 64 and / or actuator cable assembly 70 described above. The trigger 810 of the present example is pivotally mounted to the body 802 and is intended to move the trigger assembly 820 in relation to the body 802. In some versions, the trigger 810 may include a return spring (not shown) that it works to force the trigger 810 back to the non-fired position, although this is purely optional.
[0092] As shown in Figures 15A and 15B, the trigger 810 is coupled to a trigger drive set 820 to drive the drive actuator 840 distally from the body 802. The trigger drive set 820 of the present example comprises a sliding trigger carriage 822 engaged with a proximal end of the drive actuator 840, so that turning the trigger 810 pushes the trigger carriage 822 and the drive actuator 840 distally. A spring-loaded tongue 850 is swiveled by the drive actuator 840. A pair of springs 842 is coupled to the drive actuator 840 and is intended to move the tongue 850 away from the drive actuator 840. With a brief reference to Figure 16, the tongue 850 comprises a pair of arms 852 joined by a central element 862. The arms 852 comprise elongated elements pivotally mounted to the actuator 840 at a first end 854. A downward extension 858 projects from a second end 856 of each arm 852 and ends at a locking feature 860. The down extension 858 includes a distal ramp 859 configured to project the tongue 840 upwards as the distal ramp 859 meets the ramps 806, 808 described below. It should be understood, of course, that the distal ramp 859 is purely optional, and that the downward extension 858 may simply be a vertical element. The locking feature 860 is configured to engage the slots 804 formed in the body 802, as will be described below. The central element 862 opens between the arms 852 to form a unitary structure for the tongue 850, best shown in Figure 16. In the present example, the central element 862 opens between the locking features 860 to form an elongated angled element for engaging the notches 804. Of course, the central element 862 can be omitted or can extend between arms 852, in other locations. A nodule or holder 864 (shown in more detail in Figure 17) is positioned at a proximal end of one or both arms 852 to engage a clip 844 located on drive actuator 840. A flap 866 extends outwardly from a or both arms 852 and, in the present example, is positioned adjacent to node 864.
[0093] With reference again to Figures 15A and 15B, the locking features 860 and / or the central element 862 engages the notches 804 formed in the body 802. In the present example, three notches 804 are formed in the body 802, although any number can to be used. The notches 804 are longitudinally spaced by the ramps 806, 808 having distal planar faces and proximal ramp faces. In the present example, two intermediate ramps 806 are positioned proximal to an end ramp 808, although any number of intermediate ramps 806 can be included. The final ramp 808 is configured to stop at an apex 809 which is larger than the apex of the intermediate ramps 806. As will be described in more detail below, the apex 809 and the final ramp 808 are dimensioned so that the node 864 in the tongue 850 engages the clip 844 of the drive actuator 840 when the tongue 850 rises to the end ramp 808.
[0094] The body 802 also includes a release feature 890, shown in Figures 16 and 18A to 18B, located proximal to the final ramp 808 and configured to disengage node 864 from clip 844. In the present example, release feature 890 comprises a downward facing ramp that engages flap 866 and forces tab 850 downward to disengage node 864 from clip 844, accordingly, as shown in Figure 15A, trigger 810, actuator actuator 840 and tab 850 return a starting position. Other 890 trip features will be evident to those skilled in the art, in view of the teachings contained herein.
[0095] When the instrument is not in use, the trigger 810, the actuator 840 and the tongue 850 are in the initial position shown in Figure 15A with the locking features 860 and / or central element 862 engaged with a first notch 804 The springs 842 force the tongue 850 towards the notches 804 to keep the locking features 860 and / or the central element 862 inside. As the trigger 810 is actuated, the actuator actuator 840 is translated distally. The intermediate ramps 806 force the tongue 840 out of the notches 804 until the locking features 860 and / or the central element 862 overtake the flat distal face of the corresponding intermediate ramp 806. Once crossed, the springs 842 force the tongue 850 towards within the subsequent notch 804. Consequently, when the tongue 840 has entered the subsequent notch 804, even if the user releases the trigger 810, the actuator actuator 840 substantially maintains its position by engaging the locking features 860 and / or the central element 862 with the slots 804. As the drive actuator 840 is translated distally, the tongue 850 fits into a plurality of slots 804. In some versions, a single intermediate slot 804 can be provided in a predetermined position, such as when the staples begin to protrude from the staple head assembly. It is clear that other configurations will be evident to those versed in the technique, in view of the teachings contained herein.
[0096] Now with reference to figures 15B and 17, when the tongue 850 rises and reaches the apex 809 of the final ramp 808, the nodule 864 engages with the clip 844. The final ramp 808 and the apex 809 are positioned to correspond to when the trigger 810 has been turned to the fully fired position. This way, when the instrument has been fully fired, the tongue 850 does not need to engage the notches 804 to prevent the proximal translation of the drive actuator 840. Consequently, node 864 engages the clamp 844 to hold the tongue 850 in a position of so that the locking features 860 and / or the central element 862 do not engage the slots 804. As shown in Figure 16, the clip 844 can simply comprise a resilient protrusion on which the node 864 can rest. When node 864 is engaged with clip 844, a user can manually rotate trigger 810 back to the non-triggered position and / or a return spring can force actuator actuator 840 and / or trigger 810 back to the starting position . As shown in Figures 18A and 18B, as the drive actuator 840 and the tongue 850 are translated proximally, tab 866 addresses the release feature 890. When tab 866 meets release feature 890, tab 866 (and consequently, the tongue 850) is moved away from the drive actuator 840 so that the node 864 disengages the clip 844. The locking features 860 and / or the central element 862 then enter an initial notch 804 to return the device to the initial position, as shown in Figure 15A.
[0097] In some versions, the 890 release feature may be located in a different longitudinal position, so that the release of the 850 tongue activates another component. As an example only, the 850 can activate an indicator (mechanically and / or electrically) to indicate to the user that the device was previously triggered or used. In other versions, returning the instrument may allow a new staple cartridge to be loaded into the device to trigger another set of staples into the tissue. In yet another version, the tongue 850 can be swiveled to the body 850 and engages with the slots 804 formed on the actuator 840, the trigger carriage 822, the trigger 810 and / or others. Of course, still other configurations of the ratchet assembly with automatic return 830 and / or of the actuator cable assembly 800 will be evident to the person skilled in the art, in view of the teachings contained herein.
[0098] It must be understood that any one or more of the teachings, expressions, modalities, examples, etc. described here can be combined with any one or more of the other teachings, expressions, modalities, examples, etc. that are described here. The teachings, expressions, modalities, examples, etc. described above should therefore not be seen in isolation from each other. Various suitable ways in which the teachings of the present invention can be combined will be readily apparent to one skilled in the art, in view of the teachings contained herein. These modifications and variations are intended to be included in the scope of the appended claims.
[0099] It should be understood that any patent, publication, or other description material, in whole or in part, which is said to be incorporated into the present invention for reference purposes, is incorporated into the present invention only to the extent that that the embedded material does not conflict with existing definitions, statements, or other description materials, presented in this description. Accordingly, and as far as necessary, the description as explicitly presented here supersedes any conflicting material incorporated herein by way of reference. Any material, or portion thereof, which is said to be incorporated by reference in the present invention, but which conflicts with definitions, statements or other description materials contained herein, will be incorporated here only to the extent that no conflicts arise between this embedded material and the material in the existing description.
[00100] Modalities of the present invention have application in conventional instrumentation for endoscopic and open surgery, as well as application in surgery aided by robotics. For example, those skilled in the art will recognize that various teachings of the present invention can be easily combined with various teachings from US Patent No. 6,783,524, entitled "Robotic Surgical Tool with Ultrasound Cauterizing and Cutting Instrument," published August 31, 2004 , the description of which is hereby incorporated by way of reference.
[00101] Just as an example, the modalities described here can be processed before surgery. First, a new or used instrument can be obtained and, if necessary, cleaned. The instrument can then be sterilized. In a sterilization technique, the instrument is placed in a closed and sealed container, such as a plastic or TYVEK pouch. The container and the instrument can then be placed in a radiation field that can penetrate the container, such as gamma radiation, X-rays or high-energy electrons. The radiation can exterminate bacteria on the instrument and the container. The sterile instrument can then be stored in a sterile container. The sealed container can keep the instrument sterile until it is opened at the medical facility. The device can also be sterilized using any other known technique, including, but not limited to, beta or gamma radiation, ethylene oxide or water vapor.
[00102] Modalities of the devices presented here can be reconditioned for reuse after at least one use. Reconditioning can include any combination of steps to disassemble the device, followed by cleaning or replacing particular parts, and subsequent reassembly. In particular, modalities of the devices presented here can be disassembled, in any number of particular parts or parts of the devices can be selectively replaced or removed in any combination. With the cleaning and / or replacement of particular parts, modalities of the devices can be reassembled for subsequent use in a reconditioning facility or by a surgical team immediately before a surgical procedure. Those skilled in the art will understand that the reconditioning of a device can use a variety of techniques for disassembly, cleaning / replacement, and reassembly. The use of such techniques, and the resulting refurbished device are all within the scope of the present application.
[00103] Having shown and described various modalities of the present invention, further adaptations of the methods and systems described in the present invention can be made by means of suitable modifications by an element skilled in the art without departing from the scope of the present invention. Several of these possible modifications have been mentioned, and others will be evident to the elements versed in the technique. For example, the examples, modalities, geometry, materials, dimensions, proportions, steps and the like discussed above are illustrative and are not necessary. Consequently, the scope of the present invention should be considered in accordance with the terms of the following claims and it is understood that it is not limited to the details of the structure and operation shown and described in the specification and drawings.

权利要求:
Claims (15)
[0001]
1. Circular stapling apparatus for fabric stapling (10), comprising: (a) a stapling head assembly (20), comprising an anvil (40) and a staple driver (24) operable to drive a plurality of staples (66) out of the staple head assembly (20) to be folded into complete staples by the anvil (40); and (b) an actuator cable assembly (200, 300, 400, 500, 600, 700, 800), comprising: i. a body (202, 302, 402, 502, 602, 702, 802), ii. a trigger (210, 310, 410, 510, 610, 710, 810) pivotally mounted to the body, in which the trigger is movable from a non-triggered position to a triggered position to activate the clamp actuator (24) and drive one or more staples out of the stapling head assembly (20), the circular stapling apparatus being characterized by the fact that it still comprises a ratchet assembly (230, 330, 430, 530, 630, 730, 830) comprising a first element (232, 332, 432, 532, 632, 720, 852) and a second element (240, 340, 440, 540, 640, 740 802); and in which the ratchet assembly is operable to selectively maintain a position of the trigger in relation to the body, thereby preventing the trigger from returning to its non-triggered position.
[0002]
2. Apparatus according to claim 1, characterized by the fact that the first element comprises a rotating ratchet (232, 332, 432, 532) coupled to the trigger (74), and in which the second element comprises a tongue (240 , 340, 440, 550) which works to selectively engage the rotating ratchet.
[0003]
Apparatus according to claim 2, characterized by the fact that the rotating ratchet (532) is laterally sliding in relation to the trigger, in which the rotating ratchet comprises a ramp (542) that works in order to laterally displace the ratchet rotating.
[0004]
4. Apparatus according to claim 1, characterized by the fact that the second element comprises a release feature (250, 350, 444, 542, 632, 724, 890), in which the release feature works so as to disengage the second element from the first element.
[0005]
5. Apparatus according to claim 4, characterized by the fact that the release feature comprises a rotary button (250).
[0006]
6. Apparatus according to claim 4, characterized by the fact that the release feature comprises a cable (444), in which the release feature cable is slidable in relation to the body, and in which the release feature cable The release functions to move the second element longitudinally in relation to the first element.
[0007]
7. Apparatus according to claim 1, characterized by the fact that the first element is coupled to a drive actuator (716, 840), in which the second element (740, 802) is associated with the body, and in which the trigger (710, 810) works so that the actuator actuates longitudinally in relation to the body.
[0008]
Apparatus according to claim 7, characterized in that the first element comprises a plurality of teeth (720, 804), wherein the second element comprises a locking element (740, 852), wherein the element locking mechanism selectively engages one or more of a plurality of teeth.
[0009]
9. Apparatus according to claim 8, characterized by the fact that the actuator actuator (716, 840) still comprises a terminating feature (724, 844), in which the terminating feature works to disengage the element locking (740, 852) of one or more of a plurality of teeth (720, 804).
[0010]
10. Apparatus according to claim 9, characterized by the fact that the body comprises a holder (704), in which the finishing feature works in order to engage the locking element with the holder.
[0011]
11. Apparatus according to claim 10, characterized by the fact that the actuator actuator still comprises a return feature (722), in which the return feature works to disengage the locking element from the holder.
[0012]
Apparatus according to claim 7, characterized in that a first end (742) of the second element is pivotally coupled to the body, and a second end (744) of the second element is coupled to the body by means of a return spring.
[0013]
Apparatus according to claim 7, characterized by the fact that the first element (852) comprises a pivoting tongue (860), wherein the second element comprises a plurality of notches (804), wherein the tongue purpose to engage one or more of the notches when the actuator is actuated longitudinally.
[0014]
Apparatus according to claim 13, characterized by the fact that the tongue (860) is resiliently inclined towards engagement with the one or more notches (804).
[0015]
15. Apparatus according to claim 1, characterized by the fact that it still comprises an actuator (716, 840) longitudinally translatable in relation to the stapling head assembly, in which the first element or the second element of the ratchet assembly is associated with the actuator.

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同族专利:

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公开号 | 公开日

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US20130175320A1|2013-07-11|

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RU2014132165A|2016-02-20|

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EP2800525A1|2014-11-12|

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BR112014016728A2|2017-06-13|

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CN104039242A|2014-09-10|

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CN104039242B|2017-07-28|

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WO2013103507A1|2013-07-11|

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JP6262149B2|2018-01-17|

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JP2015506225A|2015-03-02|

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MX2014008264A|2014-09-22|

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MX345794B|2017-02-16|

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BR112014016728A8|2017-07-04|

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RU2624338C2|2017-07-03|

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EP2800525B1|2016-11-30|

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US9549738B2|2017-01-24|

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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

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2019-11-12| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

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2021-01-05| B09A| Decision: intention to grant|

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2021-03-09| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 17/12/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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US13/344,093|2012-01-05|

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US13/344,093|US9549738B2|2012-01-05|2012-01-05|Ratcheting feature on tissue staple trigger to prevent premature jaw opening|

---

PCT/US2012/069998|WO2013103507A1|2012-01-05|2012-12-17|Ratcheting feature on tissue staple trigger to prevent premature jaw opening|

---