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    • 专利摘要:
    Hinged anvil for circular surgical stapler. it is a circular stapler apparatus for stapling fabric which has a circular stapling head operable to launch the staples towards an anvil to form the staples in a circular fashion. the anvil includes an anvil head, a proximal rod extending proximally from the anvil head and having a proximal end disposed in a foreground, and a first pivot connecting the anvil head to the proximal rod. the first pivot is operable to be arranged in a background that is laterally offset from the foreground. the anvil is configured to rotate via motion (a, b, d) through multiple pivot points. the anvil may be configured to rotate to a position in which a portion of the anvil head is disposed below the first pivot and between the first pivot and the proximal shaft so that the anvil head is at an acute angle to an axis longitudinal (la) of the proximal stem.
    公开号:BR112015012227B1
    申请号:R112015012227-2
    申请日:2013-11-25
    公开日:2021-08-31
    发明作者:Frederick E. Shelton, Iv;Steven G. Hall;Charles J. Scheib.
    申请人:Ethicon Endo-Surgery, Inc.;
    IPC主号:
    专利说明:

    BACKGROUND
    [001] In some configurations, a surgeon may wish to position a surgical instrument through a patient's orifice and use the instrument to adjust, position, secure and/or otherwise interact with tissues within the patient. For example, in some surgical procedures, portions of the gastrointestinal tract may be cut and removed to eliminate unwanted tissue, or for other reasons. Once the desired tissue has been removed, it may be necessary to re-attach the remaining portions. One of the tools for performing these anastomotic procedures is a circular stapler that is inserted through a patient's orifice.
    [002] Examples of surgical circular staplers are described in US Patent No. 5,205,459 entitled "Surgical Anastomosis Stapling Instrument," issued April 27, 1993; US Patent No. 5,271,544 entitled "Surgical Anastomosis Stapling Instrument," issued December 21, 1993; US Patent No. 5,275,322, entitled "Surgical Anastomosis Stapling Instrument," issued January 4, 1994; US Patent No. 5,285,945 entitled "Surgical Anastomosis Stapling Instrument," issued February 15, 1994; US Patent No. 5,292,053 entitled "Surgical Anastomosis Stapling Instrument," issued March 8, 1994; US Patent No. 5,333,773, entitled "Surgical Anastomosis Stapling Instrument," issued August 2, 1994; US Patent No. 5,350,104 entitled "Surgical Anastomosis Stapling Instrument," issued September 27, 1994; and US Patent No. 5,533,661 entitled "Surgical Anastomosis Stapling Instrument," issued July 9, 1996. The description of each of the above-cited US patents is incorporated herein by reference. Some staplers are operable to staple tissue layers, cut through the tissue layers stapled together, and push the staples through the tissue layers to substantially seal the separate tissue layers near the separate ends of the tissue layers, joining , thus, two separate ends of an anatomical lumen.
    Merely additional examples of surgical staplers are set forth in US Patent No. 4,805,823 entitled "Pocket Configuration for Internal Organ Staplers," issued January 21, 1989; U.S. Patent No. 5,415,334 entitled "Surgical Stapler and Staple Cartridge", issued May 16, 1995; U.S. Patent No. 5,465,895 entitled "Surgical Stapler Instrument", issued November 14, 1995; US Patent No. 5,597,107 entitled "Surgical Stapler Instrument", issued January 28, 1997; US Patent No. 5,632,432 entitled "Surgical Instrument", issued May 27, 1997; US Patent No. 5,673,840 entitled "Surgical Instrument", issued October 7, 1997; US Patent No. 5,704,534 entitled "Articulation Assembly for Surgical Instruments", issued January 6, 1998; US Patent No. 5,814,055 entitled "Surgical Clamping Mechanism", issued September 29, 1998; US Patent No. 6,978,921 entitled "Surgical Stapling Instrument Incorporating an E-Beam Firing Mechanism", issued December 27, 2005; U.S. Patent No. 7,000,818 entitled "Surgical Stapling Instrument Having Separate Distinct Closing and Firing Systems", issued February 21, 2006; U.S. Patent No. 7,143,923 entitled "Surgical Stapling Instrument Having a Firing Lockout for an Unclosed Anvil", issued December 5, 2006; US Patent No. 7,303,108 entitled "Surgical Stapling Instrument Incorporating a Multi-Stroke Firing Mechanism with a Flexible Rack", issued December 4, 2007; US Patent No. 7,367,485 entitled "Surgical Stapling Instrument Incorporating a Multistroke Firing Mechanism Having a Rotary Transmission", issued May 6, 2008; US Patent No. 7,380,695 entitled "Surgical Stapling Instrument Having a Single Lockout Mechanism for Prevention of Firing", granted June 3, 2008; US Patent No. 7,380,696 entitled "Articulating Surgical Stapling Instrument Incorporating a Two-Piece E-Beam Firing Mechanism", granted June 3, 2008; US Patent No. 7,404,508 entitled "Surgical Stapling and Cutting Device", issued July 29, 2008; U.S. Patent No. 7,434,715 entitled "Surgical Stapling Instrument Having Multiple Strokes of Firing with Aperture Lock", granted on October 14, 2008; and US Patent No. 7,721,930 entitled "Disposable Cartridge with Adhesive for Use with a Stapling Device", issued May 25, 2010. The description of each of the above-cited US patents is incorporated herein by reference. Although the aforementioned surgical staplers are described as being 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, prior to the inventor(s), has manufactured or used the invention described in the appended 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 the same numbers references identify the same 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 of the instrument of Figure 1, showing an exemplary anvil in an open position,
    [008] Figure 2B represents an enlarged longitudinal cross-sectional view of the clamping 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 a staple driver and an exemplary blade in a fired position,
    [0010] Figure 3 represents an enlarged partial cross-sectional view of an exemplary clamp formed against the anvil,
    [0011] Figure 4A is an enlarged side elevation view of an exemplary actuator cable assembly of the surgical instrument of Figure 1, with a portion of the body removed, showing a trigger in an unfired position and a locking feature in a locked position,
    [0012] Figure 4B represents an enlarged side elevation view of the actuator cable assembly of Figure 4A, showing the trigger in a fired position and the locking feature in an unlocked position,
    [0013] Figure 5 represents an enlarged partial perspective view of an exemplary indicator assembly 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 exemplary indicator bar and corresponding exemplary clip representations,
    [0015] Figure 7A illustrates a partial cross-sectional perspective view of an exemplary anvil in a first position in which the anvil interacts with a staple head assembly to create an anastomosis;
    [0016] Figure 7B illustrates a partial cross-sectional perspective view of the anvil of Figure 7A in a second position in which an anvil head has been tilted in the opposite direction from a joint and an anvil shank portion;
    [0017] Figure 7C illustrates a partial cross-sectional perspective view of the anvil of Figure 7A in a third position in which an anvil shaft connection is slanted in the opposite direction from the anvil shaft portion;
    [0018] Figure 8 illustrates a partial cross-sectional perspective view of another exemplary anvil in a first position in which the anvil interacts with a clamping head assembly to create an anastomosis; and
    [0019] Figure 9 illustrates a partial cross-sectional perspective view of the anvil of Figure 8 in a second position in which an anvil head is swiveled around an off-center pivot of an anvil shank portion of the anvil .
    [0020] The drawings are not intended to be limiting in any way, and it is contemplated that various modalities of the technology can be carried out in a variety of other ways, including those not necessarily represented in the drawings. The drawings incorporated in the annex and forming a part of the descriptive report illustrate various aspects of the present technology, and together with the description they serve to explain the principles of the technology; it is understood, however, that this technology is not limited precisely to the provisions shown. DETAILED DESCRIPTION
    [0021] The following description of some examples of the technology should not be used to limit its scope. Other examples, elements, aspects, modalities and advantages of the technology will become evident to those skilled in the art with the following description, which is through illustrations, one of the best ways contemplated for carrying out 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, the drawings and descriptions are to be regarded as illustrative in nature and not restrictive. I. Overview of the exemplary surgical instrument for circular stapling
    [0022] Figures 1 to 6 represent an example of circular surgical stapling instrument 10, having a stapling head assembly 20, a rod assembly 60 and an actuator cable assembly 70, each of which will be described in details below. Stem assembly 60 extends distally from actuator cable assembly 70, and clamping head assembly 20 is coupled to a distal end of stem assembly 60. In summary, actuator cable assembly 70 functions in such a way as to activating 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 bent by an anvil 40 which is secured to the distal end of instrument 10. Consequently, tissue 2 shown in Figures 2A to 2C can be stapled using instrument 10.
    [0023] In the present example, the 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 coupled to a distal end of the trocar 38. The rotary knob 98 is intended to longitudinally translate the trocar 38 with respect to the assembly of stapling head 20, thus translating the anvil 40 when it is coupled to the trocar 38, to staple the tissue between the anvil 40 and the stapling head assembly 20. The firing system comprises a trigger 74, a trigger assembly of trigger 84, a drive actuator 64, and a staple driver 24. The staple driver 24 includes a knife 36 configured to cut tissue when the staple trigger 24 is actuated longitudinally. In addition, the staples 66 are positioned distally to a plurality of staple driving elements 30 of the staple driver 24, so that the staple driver 24 also drives the staples 66 distally when the driver dries. and clamp 24 is actuated longitudinally. Thus, when trigger 74 is actuated and trigger drive assembly 84 actuates clamp driver 24 via drive actuator 64, knife 36 and elements 30 substantially simultaneously cut tissue 2 and drive the staples 66 distally to the staple head assembly 20 and into tissue. The components and functionalities of the closing system and the triggering system will now be described in more detail. A. Anvil example
    [0024] As shown in Figures 1 to 2C, the anvil 40 is selectively attachable to the instrument 10 to provide a surface against which the clips 66 can be folded to staple the material contained between the clipping head assembly 20 and the anvil 40. The anvil 40 of the present example is selectively attachable to a trocar or sharpened rod 38, which extends distally to the stapling head assembly 20. Referring to Figures 2A through 2C, the anvil 40 is selectively attachable by coupling a proximal shaft 42 of anvil 40 to a distal tip of trocar 38. Anvil 40 comprises a generally circular anvil head 48 and a proximal shaft 42 extending proximally from the trocar head. anvil 48. In the example shown, the proximal shaft 42 comprises a tubular member 44 having resiliently slanted retaining tabs 46 to selectively couple the anvil 40 to the trocar 38, although. This is merely optional, and it is to be understood that other retention features for attaching the anvil 40 to the trocar 38 may also be used. For example, C-clips, staples, threads, pins, stickers, etc. may be employed to couple the incus 40 to the trocar 38. Furthermore, although the incus 40 is described as selectively attachable to the trocar 38, in some versions the proximal rod 42 may include a one-way coupling feature so that, once fixed, the incus 40 cannot be removed from the trocar 38. Merely exemplary unidirectional elements include barbs, unidirectional push buttons, tweezers, collars, flaps, bands, etc. Of course still other configurations for attaching the incus 40 to the trocar 38 will be evident skilled in the art in view of the teachings of the present invention. For example, trocar 38 may instead be a hollow shaft, and proximal shaft 42 may comprise a sharpened shaft that can be inserted into the hollow shaft.
    [0025] The anvil head 48 of the present example comprises a plurality of clip-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 clips 66 are led out of the staple head assembly 20 and into the staple forming pockets 52, as shown in Figure 2C, legs 68 of staples 66 are bent to form finished staples. It should be understood that the staple forming pockets 52 are merely optional, and may be omitted in some versions.
    [0026] With the anvil 40 as a separate component, it should be understood that the anvil 40 can be inserted and secured to a portion of tissue 2 prior to being coupled to the stapling head assembly 20. By way of example only, the anvil 40 can be inserted and secured to a first tubular tissue portion 2, while the instrument 10 is inserted and secured to a second tubular tissue portion 2. For example, the first tubular tissue portion 2 can be sutured to or around a portion of the incus 40, and the second tubular tissue portion 2 may be sutured in or around the trocar 38.
    [0027] As shown in Figure 2A, the incus 40 is then coupled to the trocar 38. The trocar 38 of the present example is shown in a more distal actuated position. This extended position of the trocar 38 can provide a larger area to which tissue 2 can be attached, prior to attachment of the incus 40. In addition, the extended position of the trocar 38 can also provide easier attachment of the incus 40 to the trocar. 38. Trocar 38 additionally includes a tapered distal tip. This tip may be capable of piercing through tissue, and/or assisting in the insertion of the incus 40 into the trocar 38, although the tapered distal tip is merely optional. For example, in other versions the trocar 38 may have a non-piercing tip. Additionally, or alternatively, the trocar 38 may include a magnetic portion not shown that can attract the incus 40 towards the trocar 38. Of course, other configurations and arrangements for the incus 40 and the trocar 38 will be apparent to those skilled in the art, in view of the teachings contained herein.
    [0028] When the anvil 40 is coupled to the trocar 38, the distance between a proximal face of the anvil 40 and a distal face of the clamping head assembly 20 defines a span distance d. The trocar 38 of the present example is translatable longitudinally with respect to the clamping 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 trotter 38, the rotation of the adjustment knob 98 extends or reduces the span distance d by actuating the anvil 40 relative to the clamping head assembly 20. For example, as per shown sequentially in Figures 2A to 2B, the anvil 40 is shown acting proximally to the actuator cable assembly 70 from an initial open position to a closed position, thus reducing the gap and the distance between the two. 2 fabric portions to be joined. When the gap distance is placed within a predetermined range, the stapling head assembly 20 can be heated, as shown in Figure 2C, to staple and cut the fabric 2 between the anvil 40 and the stapling head assembly 20. stapling head assembly 20 is intended to staple and cut fabric 2 by a user turning a trigger 74 of actuator cable assembly 70, as will be described in more detail below.
    [0029] As noted above, the span distance corresponds to the distance between the anvil 40 and the stapling head assembly 20. When instrument 10 is inserted into a patient, this span distance d may not be easily visible. Accordingly, a movable indicator bar 110, shown in Figures 5 to 6, is arranged to be visible through an indicator window 120 positioned opposite the trigger 74. The indicator bar 110 is intended to move in response to rotation. of adjustment knob 98 so that the position of indicator bar 110 is representative of the span distance d. As shown in Figure 6, the indicator window 120 further comprises a scale 130 indicating that the anvil span is in a desired operating range (e.g., a green colored region or "green zone") and a representation of compression of the corresponding staple at each end of scale 130. By way of example only, as shown in Figure 6, a first staple image 132 represents a large staple height, while a second staple image 134 represents a small staple height. Consequently, a user can view the position of the coupled anvil 40 relative to the clamping head assembly 20 via the indicator bar 110 and the scale 130. The user can then adjust the positioning of the anvil 40 via the adjustment knob 98 as needed.
    [0030] Referring 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 situated in a portion of the fabric 2 to be stapled. When tissue 2 is secured to anvil 40, retaining tabs 46 and a portion of tubular member 44 protrude from tissue 2 so that the user can attach anvil 40 to trocar 38. With tissue 2 attached to tissue 2 trocar 38 and/or the other portion of the stapling head assembly 20, the user attaches the anvil 40 to the trocar 38 and drives the anvil 40 proximally toward the stapling head assembly 20 to reduce the gap distance d. When the instrument 10 is within the operating range, the user then staples the ends of the fabric 2, thus forming a substantially contiguous tubular portion of the fabric 2.
    The anvil 40 may be further constructed in accordance with at least some of the teachings of US Patent No. 5,205,459; US Patent No. 5,271,544; US Patent No. 5,275,322; US Patent No. 5,285,945; US Patent No. 5,292,053; US Patent No. 5,333,773; US Patent No. 5,350,104; U.S. Patent No. 5,533,661, the disclosures of which are incorporated herein by reference; and/or in other embodiments, as will be apparent to one skilled in the art in view of the teachings of the present invention. B. Example Stapling Head Assembly
    [0032] The clamping head assembly 20 of the present example is coupled to a distal end of the rod assembly 60 and comprises a tubular housing 22 housing a sliding clamp driver 24 and a plurality of clamps 66 contained in the clamp pockets 32. Clamps 66 and staple pockets 32 are disposed in a circular array around tubular housing 22. In the present example, staples 66 and staple pockets 32 are arranged in a pair of concentric annular rows of staples 66 and staple pockets 32. clamp driver 24 is intended to actuate longitudinally within tubular housing 22 in response to rotation of trigger 74 of actuator cable assembly 70. As shown in Figures 2A to 2C, clamp driver 24 comprises a flared cylindrical element having a trocar opening 26, a central recess 28 and a plurality of elements 30 circumferentially disposed around the central recess 28 and extending distally with respect to rod assembly 60. Each element 30 is configured to contact, and engage with, a corresponding clip 66 of the plurality of clips 66 in clip pockets 32. Consequently, when clip driver 24 is actuated - distally to the actuator cable assembly 70, each element 30 drives a corresponding clip 66 out of its clip pocket 32 through a clip opening 34 formed in a distal end of the tubular housing 22. Like each element 30 extends from the staple driver 24, the plurality of staples 66 are 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 driven into staple-forming pockets 52 for flexing the legs 68 of the staples 66, thereby staple the material located between the anvil 40 and the staple head assembly 20. Figure 3 depicts a merely exemplary staple 66 carried by an element 30 in a staple-forming pocket 32 of the anvil 40 for flexing the legs 68.
    [0033] 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 disposed within the central recess 28 to translate distally with the staple driver 24. When the anvil 40 is secured 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 clamping head assembly 20 In some versions, the anvil head 48 may include a recess not shown for the cylindrical knife 36 to help cut material, for example, by providing a cooperative cutting edge. Additionally, or alternatively, the anvil head 48 may include one or more opposing cylindrical knife knives not shown offsetting the cylindrical knife 36 so as to 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 the fabric 2 substantially simultaneously in response to actuation by the actuator cable assembly 70.
    [0034] Logically, the clamping head assembly 20 can be further constructed in accordance with at least some of the teachings of US Patent No. 5,205,459; US Patent No. 5,271,544; US Patent No. 5,275,322; US Patent No. 5,285,945; US Patent No. 5,292,053; US Patent No. 5,333,773; US Patent No. 5,350,104; U.S. Patent No. 5,533,661, the disclosures of which are incorporated herein by reference; and/or other embodiments, as will be apparent to one skilled in the art in view of the teachings of the present invention.
    [0035] As noted above, the staple driver 24 includes a trocar opening 26. The trocar opening 26 is configured to allow the trocar 38 to slide longitudinally with respect to the clamping head assembly 20 and/or stem assembly 60 As shown in Figures 2A to 2C, the trocar 38 is coupled to a trocar actuator 39 so that the trocar 38 can be actuated longitudinally by rotating the rotary knob 98, as will be described in more detail below with reference to the assembly. of actuator cable 70. In the present example, the trocar actuator 39 comprises an elongated, relatively rigid rod coupled to the trocar 38, although this is merely optional. In some versions, actuator 39 can comprise a longitudinally rigid material while allowing lateral flexion so that portions of instrument 10 can be selectively flexed or curved during use; or instrument 10 may include a previously prepared bent rod assembly 60. A merely exemplary material is nitinol. When the anvil 40 is coupled to the trocar 38, the trocar 38 and the anvil 40 are translatable via the actuator 39 to adjust the gap distance d between the anvil 40 and the clamping head assembly 20. Yet other additional configurations for the actuator 39 to actuate the trotter 38 longitudinally will be evident to the person skilled in the art, in view of the teachings contained herein. C. Rod Assembly Example
    [0036] The stapling head assembly 20 and the trocar 38 are positioned at a distal end of the stem assembly 60, as shown in Figures 2A through 2C. The rod assembly 60 of the present example comprises an outer tubular member 62 and a drive actuator 64. The outer tubular member 62 is coupled to the tubular casing 22 of the clamping head assembly 20 and to a body 72 of the cable assembly. actuator 70, thus providing mechanical support for the actuator components contained therein. The proximal end of the trigger actuator 64 is coupled to a trigger trigger assembly 84 of the actuator cable assembly 70, described below. The distal end of actuating actuator 64 is coupled to clamp actuator 24 so that rotation of trigger 74 longitudinally actuates clamp actuator 24. As shown in Figures 2A to 2C, actuating actuator 64 comprises a tubular member having a longitudinal axis open so that the actuator 39 coupled to the trocar 38 can actuate longitudinally and in relation to the actuating actuator 64. It should be understood, of course, that other components may be disposed within the actuating actuator 64, as will become evident to the person versed in the technique, in view of the teachings contained herein.
    The rod assembly 60 may be further constructed in accordance with at least some of the teachings of US Patent No. 5,205,459; US Patent No. 5,271,544; US Patent No. 5,275,322; US Patent No. 5,285,945; US Patent No. 5,292,053; US Patent No. 5,333,773; US Patent No. 5,350,104; U.S. Patent No. 5,533,661, the disclosures of which are incorporated herein by reference; and/or in accordance with other embodiments, as will be apparent to one skilled in the art in view of the teachings of the present invention. D. Example of Actuator Cable Assembly
    [0038] Now referring to Figures 4A to 5, the actuator handle assembly 70 comprises a body 72, a trigger 74, a lockout feature 82, a trigger drive assembly 84 and a trocar drive assembly 90. The trigger 74 of the present example is pivotally mounted to the body 72 and is coupled to the trigger drive assembly 84 so that the trigger drive 74 rotates from an unfired position shown in Figure 4A to a fired position shown in Figure 4B drive the drive actuator 64 described above. A spring 78 is coupled to the body 72 and the trigger 74 to bias the trigger 74 toward the unfired 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 pivoted up and away from the body 72 so that the locking feature 82 engages the trigger. 74 and mechanically resists triggering of trigger 74 by a user. In a second unlocked position, as shown in Figures 1 and 4B, the locking feature 82 is rotated downward so that the trigger 74 can be actuated by the user. Consequently, with the locking feature 82 in the second position, the trigger 74 can engage a trigger drive assembly 84 to trigger the instrument 10.
    [0039] 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 trigger actuator 64. Carriage 86 includes a set of tabs 88 on a 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 longitudinally actuated and transfers longitudinal movement to the actuating actuator. 64. In the example shown, carriage 86 is fixedly coupled to the proximal end of drive actuator 64, although this is merely optional. Indeed, in a merely alternative example, carriage 86 may simply be in a position abutting drive actuator 64, while a distal spring not shown biases drive actuator 64 proximally with respect to actuator cable assembly 70.
    The trigger actuation assembly 84 may be further constructed in accordance with at least some of the teachings of US Patent No. 5,205,459; US Patent No. 5,271,544; US Patent No. 5,275,322; US Patent No. 5,285,945; US Patent No. 5,292,053; US Patent No. 5,333,773; US Patent No. 5,350,104; U.S. Patent No. 5,533,661, the disclosures of which are incorporated herein by reference; and/or in other embodiments, as will be apparent to one skilled in the art in view of the teachings of the present invention.
    [0041] Body 72 also houses a trocar drive assembly 90 configured to drive trocar 38 longitudinally in response to rotation of adjustment knob 98. As best shown in Figures 4A through 5, trocar drive assembly 90 of the present example comprises the adjustment knob 98, a splined stem 94 and a sleeve 92. The splined stem 94 of the present example is situated at a distal end of the trocar actuator 39, although it should be understood that the splined stem 94 and the actuator The trocar 39 may alternatively be separate components that engage to impart longitudinal movement. Adjustment knob 98 is pivotally supported by the proximal end of body 72, and functions to rotate sleeve 92 which is engaged with splined rod 94 by means of an inner tab not shown. The splined rod 94 of the present example comprises a continuous groove 96 formed in the outer surface of the splined rod 94. Consequently, when the adjustment knob 98 is rotated, the inner tab moves within the groove 96 and the splined rod 94 is actuated longitudinally with respect to sleeve 92. As the splined rod 94 is situated at the distal end of the trocar actuator 39, turning the adjustment knob 98 in a first direction advances the trocar actuator 39 distally with respect to the actuator handle assembly 70. Consequently , the gap distance d between the anvil 40 and the clamping 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 span distance d between the anvil 40 and the clamping head assembly 20. Thus, the trocar driving assembly 90 is intended to drive the trocar 38 in response to the b swivel adjustment knob 98. Of course, other configurations for the shift drive assembly 90 will be apparent to one of skill 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 having a different range or number of grooves per axial distance. The present groove 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 rod 94 so that a large number of rotations of adjustment knob 98 are required to travel the short axial distance. The middle portion 96B comprises a section with comparably thicker gap or with fewer grooves per axial distance so that relatively few rotations are needed to traverse a long axial distance. Consequently, the span distance d can be quickly reduced by relatively few rotations of the adjustment knob 98. The proximal portion 96C of the present example is substantially similar to the distal portion 96A and comprises a thin gap or a high number of grooves for a short axial distance from the splined rod 94 so that a large number of rotations is needed to traverse the short axial distance. The proximal portion 96C of the present example is positioned on the sleeve 92 when the anvil 40 is substantially close to the clamping head assembly 20 so that an indicator bar 110 moves within the indicator window 120 along the scale 130 to indicate the span. the anvil is within a desired operating range as will be described in detail below. Consequently, when the tab is within the proximal portion 96C of the groove 96, each rotation of the adjustment knob 98 can reduce the gap distance d to a small amount to provide fine tuning.
    The trocar actuation assembly 90 may be further constructed in accordance with at least some of the teachings of US Patent No. 5,205,459; US Patent No. 5,271,544; US Patent No. 5,275,322; US Patent No. 5,285,945; US Patent No. 5,292,053; US Patent No. 5,333,773; US Patent No. 5,350,104; U.S. Patent No. 5,533,661, the disclosures of which are incorporated herein by reference; and/or in other embodiments, as will be apparent to one skilled in the art in view of the teachings of the present invention.
    [0044] In the example shown in Figures 4A to 4B, a U-shaped clip 100 is attached to an intermediate portion of the trocar actuator 39 located distally from the splined rod 94. The U-shaped clip 100 engages with a portion of body 72 to substantially prevent the trocar actuator 39 from rotating about its axis when the adjustment knob 98 is rotated. The U-shaped cleat 100 further includes an elongated slot 102 on each of its opposite sides for receiving a fastening element, such as a screw, bolt, pin, cleat, etc., to selectively adjust the longitudinal position of the elongated slot 102 of the U-shaped loop 100 with respect to the trocar actuator 39, for the purpose of calibrating the indicator bar 110 with respect to the scale 130.
    [0045] As shown in Figure 5, the actuator cable assembly 70 further includes an indicator bracket 140 configured to engage and rotate an indicator 104. The indicator bracket 140 of the present example is slidable relative to the body 72 along a pair of slits formed in body 72. Indicator bracket 140 comprises a rectangular plate 144, indicator arm 146, and angled flange 142. Angle flange 142 is formed at the proximal end of rectangular plate 144, and includes an opening not shown to be slidably mounted on the trocar actuator 39 and/or the splined rod 94. A coil spring 150 is interposed between the flange 142 and a protrusion 152 to bias the flange 142 against the U-shaped loop 100. Consequently , when the U-shaped clip 100 acts distally with the Trocar Actuator 39 and/or the splined rod 94, the coil spring 150 forces the indicator bracket 140 to move distally with the U-shaped clip 100. In addition d this, the U-shaped clamp 100 forces the indicator bracket 140 proximally with respect to the protrusion 152 as the trocar actuator 39 and/or the splined rod 94 move proximally, thus compressing the coil spring 150. Of course It should be understood that, in some versions, the indicator bracket 140 may be fixedly attached to the trocar actuator 39 and/or the grooved rod 94.
    [0046] In the present example, a portion of the locking feature 82 abuts 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 span is within a desired operating range eg a green colored region or "green zone". When the anvil span is within a desired operating range (eg, a green colored region or "green zone"), the indicator bracket 140 thins to provide a pair of spans 145 on either side of an indicator arm 146 which allows the locking feature 82 to rotate, thereby releasing the trigger 74. Consequently, the locking feature 82 and the indicator bracket 140 can substantially prevent a user from releasing and operating the trigger 74 until the anvil 40 is in a range of operation predetermined. It should be understood, of course, that lockout feature 82 may be omitted entirely in some versions.
    [0047] This operating range may be visually communicated to the user by means of an indicator bar 110 of an indicator 104 shown against a scale 130, described briefly above. At the distal end of the index bracket 140 is a distally extending index arm 146 that terminates in a laterally extending finger 148 to control movement of the index 104. The index arm 146 and finger 148, best shown in Figure 5, are configured to engage the a tab 106 of indicator 104 so that indicator 104 is rotated when indicator bracket 140 is actuated longitudinally. In the present example, indicator 104 is pivotally coupled to body 72 at a first end of indicator 104, although this is merely optional, and other pivot points of indicator 104 will be apparent to one of ordinary skill in the art in view of the teachings herein. contained. An indicator bar 110 is positioned at the second end of indicator 104 such that indicator bar 110 moves in response to actuation 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 span distance d between the anvil 40 and the clamping head assembly 20.
    [0048] Logically, the bracket of the indicator 140, the indicator 104, and/or the actuator cable assembly 70 can be further constructed in accordance with at least some of the teachings of US Patent No. 5,205,459; US Patent No. 5,271,544; US Patent No. 5,275,322; US Patent No. 5,285,945; US Patent No. 5,292,053; US Patent No. 5,333,773; US Patent No. 5,350,104; U.S. Patent No. 5,533,661, the disclosures of which are incorporated herein by reference; and/or in other embodiments, as will be apparent to one skilled in the art in view of the teachings of the present invention. II. Exemplary versions of anvil tilt
    [0049] As described above, an anvil such as the anvil 40 of Figure 2A can be inserted into a lumen that forms part of tissue 2, and can be retracted from an anastomotic site, being used, as described above, to staple portions of tissue 2 to form the anastomosis. For example, Figures 7A through 9 show the upper esophagus 4A and the lower esophagus 4B, which are formed by tissue 2. This is stapled to an anastomosis 6. In an esophagectomy, for example, a surgeon may decide to introduce an incus of a circular stapler trans-orally and non-traumatic. For example, the surgeon may wish to reduce trauma that can occur to an inner surface of the esophagus by transoral introduction of the incus, as well as retraction of the incus, by preventing an outer edge of the incus from interacting with the inner surface of the esophagus. 4 during insertion and retraction of the incus. Or the surgeon may wish to introduce the circular stapler anvil in a non-traumatic manner in a bowel procedure or similar procedures, as will be apparent to those skilled in the art in view of the teachings of the present invention. For example, the anvil may be inserted into or retracted from a naturally-occurring body tissue lumen 2, which may be the intestine, esophagus 4, or some other portion of the gastrointestinal (GI) tract.
    [0050] With regard to a trans-oral incus introduction, the incus can be trans-orally introduced and directed down into a patient's esophagus 4 to a first suture position shown, for example, in Figure 2A being that tissue 2 may represent the esophagus. The anvil may then be sutured to the first suture position, as shown in Figure 2A, and as described above with respect to anvil 40. Additionally or alternatively, the anvil may be secured to tissue 2, as shown in Figure 2A, of whichever manner is suitable, as will be apparent to those skilled in the art in view of the teachings of the present invention. The stapling head assembly 20 can be introduced, for example, through an abdominal opening and brought into the esophagus 4 to a second suture position disposed below the first suture position. Then, the stapling head assembly 20 may be sutured to tissue 2 as described above or secured in any manner that is suitable, as will be apparent to those skilled in the art in view of the teachings of the present invention. Anvil 40 and stapling head assembly 20 are then operable to interact to separate and staple tissue 2, as described above, to create anastomosis 6 (created by two reconnected portions of tissue 2), as shown in Figures 7A through 9, which are described in more detail further below.
    [0051] Additional exemplary modifications that can be provided to instrument 10 to reduce trauma to the esophagus during transport of incus 40 will be described in more detail below. Several suitable ways in which the teachings below can be incorporated into instrument 10 will be evident to those skilled in the art. Similarly, various suitable ways in which the teachings below may be combined with the various teachings of the references cited in the present invention will be apparent to those skilled in the art. It should also be understood that the teachings below are not limited to the instrument 10 or devices taught in the references mentioned in the present invention. The teachings below can be readily applied to many other types of instruments, including instruments that would not be classified as surgical staplers. Various other suitable devices and configurations in which the teachings below can be applied will be apparent to those skilled in the art in view of the teachings contained herein. A. First exemplary version of hinged anvil that includes multiple pivots
    [0052] As shown in Figures 7A through 7C, an exemplary first hinged anvil 240 includes an anvil head 248 and a proximal shaft 242 extending proximally from an anvil head 248. The proximal shaft 242 can be secured to the length. - carte 38 in a manner as described above with respect to the proximal rod 42 or as will be apparent to one skilled in the art in view of the teachings of the present invention. Proximal rod 242 comprises a flexible material, a rigid material, or any suitable material, as will be apparent to one of ordinary skill in the art in view of the teachings of the present invention. The anvil head 248 is similar to the anvil head 48, described above, and includes a plurality of staple forming pockets not shown formed on a proximal face 250 of the anvil head 248. The anvil head 248 operates with staples 66 of a similar manner as described above for the anvil head 48.
    The anvil head 248 is attached to the proximal stem 242. The proximal stem 242 includes link 254 and stem portion 256. Link 254 and stem portion 256 are connected via linkage pivot 258. Link 254 is swivels about a longitudinal axis of linkage pivot 258. Anvil head 248 is connected to linkage 254 through a head pivot 252. Anvil head 248 is swivels about a longitudinal axis of linkage pivot 252 in the direction of arrow A, as shown in Figure 7B. Link 254 of proximal rod 242 is swivel about link pivot 258 in the direction of arrow (B), as shown in Figure 7C. The head pivot 252, and other pivots of the present disclosure, may comprise, for example, pins received through channels or other suitable structures, as will be apparent to those skilled in the art in view of the teachings of the present invention.
    [0054] As shown in Figure 7B, the trigger rod 253 is disposed and can be translated within the proximal shaft 242. When the trigger rod 253 is advanced to a distal position, the trigger rod 253 engages a point outside of center of the proximal face 250 of the anvil 240 with sufficient force to tilt the anvil head 248 around the head pivot 252 in the direction of arrow A. The drive rod 253 holds the anvil head 248 in the tilted position while the drive rod 253 is in the distal position. On some versions, drive rod 253 is retracted proximally before link 254 rotates about link pivot 258, as shown in Figure 7C. In some other versions, drive rod 253 is in the distal position when link 254 rotates about link pivot 258. Therefore, it should be understood that drive stem 253 may terminate proximally distal to link pivot 258; or the drive rod can flex through the link pivot 258.
    [0055] In some versions, the longitudinal position of the drive rod 253 relative to the anvil head 248 is based on the position of the anvil 240 relative to the clamping head assembly 20. For example, the drive rod 253 can be configured to remain in the distal position whenever the anvil 240 is uncoupled from the trocar 38 of the clamping head assembly 20. In some such versions, the drive rod 253 may automatically retract proximally when coupling the anvil 240 to the trocar 38. Alternatively, drive rod 253 can be configured to remain in the distal position even after anvil 240 is attached to trocar 38, when anvil 240 is still significantly spaced from clamping head assembly 20 for example, before anvil 240 is extracted toward a clamping head assembly 20 through trocar 38 to secure tissue between anvil 240 and head assembly. clipping ote 20, etc. In some such versions, a feature on anvil 240 and/or a feature on clipping head assembly 20 can be configured to retract drive rod 253 proximally, thus allowing the head to anvil 248 revolves to the position shown in Figure 7A when anvil 240 is retracted inwardly by a distance from the clamping head assembly 20. For example, a cam feature of proximal stem 242 may interact with a complementary feature of the clamping head assembly 20 when the proximal rod 242 is retracted to a certain position within the clamping head assembly 20. Instead of automating the retraction of the drive rod 253, a separate actuator can extend along the rod assembly 60 through actuator cable assembly 70, which allows the operator to selectively advance/retract drive rod 253 independently. As yet another variation, drive rod 253 may be integral with rod portion 256, and a combination of drive rod 253 and rod portion 256 may selectively slide relative to link 254 and pivot 258 to advance / selectively retract actuating rod 253. As yet another merely illustrative example, an electromechanical feature eg solenoid, etc. can be used to selectively advance/retract drive rod 253 in an automated manner or in a manual/independent manner. Other suitable ways in which drive rod 253 may be actuated will become apparent to those skilled in the art in view of the teachings of the present invention.
    [0056] In use, anvil 240 is inserted into an inner lumen of tissue 2 in an incus insertion direction. For example, incus 240 can be trans-orally inserted into a patient's esophagus 4 . Before the incus 240 is inserted, a portion of the esophagus 4 can be resected and removed, for example, with the use of an endo-cutter type linear cutting/stapling device, resulting in separation of the upper esophagus 4A from the lower esophagus 4B . Incus 240 can be inserted into upper esophagus 4A until it reaches the lower end of upper esophagus 4A, where instrument 10 can be used to join upper esophagus 4A and lower esophagus 4B through an end-to-end anastomosis 6. The incus 240 may be in the positions shown in Figures 7B or 7C, while being inserted, for example, and before rod portion 256 is secured to a trocar of a clamping head assembly, as in the manner described above for secure the incus 40 to the trocar 38 and the stapling head assembly 20. In some versions, conventional surgical claws are inserted through the esophagus 4 to grasp the rod portion 256 and thereby pull the incus 240 to the anastomotic site through of the upper esophagus 4A.
    [0057] The anvil 240 can be straightened into a position as shown in Figure 7A before interacting with the clamping head assembly 20 as described above. Stapling head assembly 20 is advanced toward anvil 240 through lower esophagus 4B in a stapling direction that is opposite to the incus insertion direction. Stem portion 256 is then coupled to trocar 38. The force applied by the firing and clamping system, as described above, can straighten anvil 240 and stem portion 256 so that they are in the position shown in Figure 7A (for example , when the instrument 10 clamps the fabric between the stapling head assembly 20 and the anvil head 248). The positions will be further described below in relation to a retraction of anvil 240. Anvil 240 can then be used, as described above, to staple tissue 2 with staples 66. Figure 7A shows a position after anvil 240 has been used to staple tissue 2 with staples 66, and after which knife 36 separated tissue, thus creating a secure anastomosis 6.
    [0058] To retract anvil 240, drive rod 253 is advanced distally, causing anvil head 248 to revolve around head pivot 252 in the direction of arrow A shown in Figure 7B. By remaining in an extended position, drive rod 253 helps to hold anvil head 248 in the first rotated or tilted position shown in Figure 7B, in a manner that will be apparent to the skilled person in view of the teachings of the present invention. For example, actuating rod 253 may contain a laterally displaced portion (not shown) that bears against proximal face 250 when actuating rod 253 is in the extended position. The laterally displaced portion thereby prevents the anvil head 248 from rotating back to the position of the anvil head 248 shown in Figure 7A.
    [0059] Stem portion 256 is proximally retracted along the direction of arrow C to retract incus 240 through the lumen defined by tissue 2 as esophagus 4. Load on anvil head 248 from this retraction can provide joint at linkage pivot 258. For example, anvil head 248 may be contiguous to the walls of the inner surface of fabric 2, causing linkage 254 to revolve around linkage pivot 258 at angles of about 30 degrees to about 45 degrees with respect to a shank portion 256 as the anvil 240 is proximally retracted. Additionally, the anvil head 248 revolves around the head pivot 252 so that the anvil head 248 can be retracted into an internal tissue passageway 2 with minimal interaction with the walls of the tissue inner surface 2. In other words , the tilt and rotation described above may prevent the outer edge of the incus head 248 from scraping the inner wall of the esophagus as the incus 240 is transported through the esophagus. In the position shown in Figure 7C, for example, link 254 is angled relative to shank portion 256 and anvil head 248 is angled relative to link 254 to a retracted position. A plane of the anvil head 248 shown as the PP plane in Figure 7C defines an acute angle with the longitudinal axis LLA of the shank portion 256 of the proximal shank 242, with the apex VV of the angle being positioned lower than the pivot of the head 252. In the retracted position, a retraction of the anvil 240 in the direction of arrow C substantially avoids trapping the lower portion of the anvil head 248, disposed closest to the connecting pivot 258, with an inner surface of the fabric 2, and particularly with edges of the anastomosis 6 which are shown as being stapled by means of staples 66.
    [0060] The drive rod 253 can remain extended during the retraction of the anvil 240 as described above. Additionally, the anvil head 248 can be locked in one position as shown in Figure 7B or in position as shown in Figure 7C to facilitate the extraction of the anvil head 248 from the anastomosis 6 to reduce anastomotic trauma during retraction of anvil 240. For example, an internal projection on link 254 may be received in an internal notch in shank portion 256 laterally displaced from link pivot 258 and disposed at a location to lock link 254 at a desired back angle. tion to stem portion 256. By way of example only, stem portion 256 may selectively slide with respect to link 254 and revolver 258 to selectively lock the angle of link 254 on pivot 258.
    [0061] In some versions, the anvil head 248 is resiliently forced to tilt to the position shown in Figures 7B and 7C. In such versions, the drive rod 253 can be omitted or still be included. Additionally, or alternatively, link 254 may be resiliently forced to tilt to the position shown in Figure 7C. Several suitable ways in which such biases may be provided will be apparent to those skilled in the art in view of the teachings of the present invention. It should be understood that, in such versions, the link 254 and the anvil head 248 may ultimately tilt to the positions shown in Figure 7A once the incus 240 is coupled to the trocar 38 and the anvil 240 is retracted into the direction of the stapling head assembly 20. In other words, the internal axial passage inside the stapling head assembly 20 can stretch the link 254 and the distal face of the stapling head assembly 20 can straighten the anvil head 248.
    [0062] Other suitable ways in which an anvil may include a multi-pivot shank will be apparent to those skilled in the art in view of the teachings of the present invention. B. Exemplary angled anvil second version including off-center pivot
    [0063] Figures 8 and 9 show a second exemplary sloped anvil 340 that includes an anvil head 348 and a proximal shaft 342 that extends proximally from the anvil head 348. The proximal shaft 342 can be secured to the trocar 38 of a in a manner as described above with respect to the proximal rod 42 or as will be apparent to one skilled in the art in view of the teachings of the present invention. Proximal rod 342 comprises a flexible material, a rigid material material, or any suitable material, as will be apparent to one of ordinary skill in the art in view of the teachings of the present invention. The anvil head 348 is similar to the anvil head 48, described above, and includes a plurality of clamp forming pockets (not shown) formed in a proximal face 350 of the anvil head 348. The anvil head 348 operates with clamps 66 in a manner similar to that described above for the anvil head 48.
    [0064] The anvil head 348 includes the connector connector 351 which connects the anvil head 348 to the proximal shaft 342. The anvil head 348 is connected to the proximal shaft 342 through the offset outward head pivot 352. anvil head 348 is swivel about a longitudinal axis of head pivot 352 in the direction of arrow D, as shown in Figure 9. Drive rod 353 is disposed and can be translated within proximal rod 342 in a similar manner to that described for drive rod 253. Proximal rod 342 includes a first portion 354 on which drive rod 353 is disposed and a second portion 356 extending laterally from a distal end of first portion 354 of proximal rod 342. The head pivot 352 is disposed on the second portion 356 and is offset relative to the longitudinal axis of the first portion 354. The head pivot 352 connects the connector link 351 of the anvil head 348 to the second. portion 356 of proximal shaft 342 such that connector connector 351 and anvil head 348 are rotatable relative to second portion 356 about a longitudinal axis of head pivot 352.
    [0065] In use, anvil 340 is inserted into an inner lumen of tissue 2 (eg, upper esophagus 4A, etc.) in an incus insertion direction in a manner similar to that described above for anvil 240. 340 may be in a position shown in Figure 9 while being inserted, for example. When the proximal rod 342 is coupled to the trocar 38, tissue gripping between the clamping head assembly 20 and the anvil 340 will stretch the anvil 340 prior to a firing actuation, as described above. In this way, the force delivered by the firing and stapling system as described above will straighten anvil 340 into the position shown in Figure 8. Anvil 340 can then be used as described above to staple the inner surfaces of the fabric. 2. Figure 8 shows a position after anvil 340 was used to staple the inner surfaces of a tissue lumen 2 with staples 66 to create anastomosis 6.
    [0066] To retract the anvil 340, the drive rod 353 is advanced distally, causing the anvil head 348 to revolve around the pivot of the head 352 in the direction of arrow D shown in Figure 9. The drive rod 353 can remain advanced to help maintain the anvil head 248 in the slanted position shown in Figure 9. Because the second portion 356 is laterally offset from the first portion 354, the anvil head 348 is able to rotate around the pivot. of the anvil head 352 to a position in which the anvil head 348 is at an obtuse angle to an initial position of the anvil head 348. In particular, the anvil head 348 rotates more than 90 degrees with respect to the proximal shaft 342 at this example. A plane of the anvil head 348 illustrated as plane P in Figure 9 defines an acute angle with the longitudinal axis (LA) of the proximal shaft 342, with the apex V of the angle being at a lower position than the head pivot 352. Thus, once rotated, a proximal end of the anvil head 348 is disposed below the second portion 356 and between the ends of the second portion 356 and first portion 354 of the proximal shaft 342.
    [0067] The anvil head 348 may be lockable in position at an obtuse angle of Figure 9 to facilitate the extraction of the anvil head 348 from the anastomosis 6 in a manner similar to that described above to lock the anvil head 248, as will become evident for those skilled in the art in view of the teachings of the present invention. For example, a protrusion on an inner surface of connector connector 351 may be advanced to receive a complementary notch disposed on an inner surface of second portion 356. Additionally or alternatively, a laterally projecting portion of drive rod 353 may be received at a notch disposed on an underside of the jumper connector 351. Other suitable ways in which the actuating rod 353 can be selectively locked in the distal position shown in Figure 9 (or at least resiliently forced to the distal position shown in Figure 9 ), will be apparent to one skilled in the art in view of the teachings of the present invention.
    The first portion 354 is proximally retracted downward through the esophagus 4 to retract the incus 340 of the esophagus in a manner as described above. The load on the anvil head 348 from this retraction may cause the proximal shaft 342 to tilt in a direction opposite to arrow D, while inside the esophagus 4, so that the longitudinal axis LA of the proximal shaft 342 is slanted relative to to the esophageal axis 4. With the incus head 348 and the proximal shaft 342 slanted as shown in Figure 9, the incus head 348 can be retracted down into the esophagus 4 with minimal interaction between the outer edge of the incus head 348 and the walls of the inner surface of the esophagus 4. In other words, the tilt and articulation described above can prevent the outer edge of the incus head 348 from scraping the inner wall of the esophagus as the incus 340 is transported through the esophagus. III. Other considerations
    [0069] It should be understood that any one or more of the teachings, expressions, modalities, examples, etc. described herein may be combined with any one or more of the other teachings, expressions, modalities, examples, etc. which are described here. Therefore, the teachings, expressions, modalities, examples, etc. described above should not be viewed in isolation from one another. Various suitable ways in which the teachings of the present invention may be combined will be readily apparent to those skilled in the art in view of the teachings of the present invention. These modifications and variations are intended to be included within the scope of the appended claims.
    [0070] It is understood that any patent, publication, or other disclosure material, in whole or in part, which is said to be incorporated into the present invention by way of reference, is incorporated into the present invention only if the incorporated material does not enter into conflict with existing definitions, statements, or other disclosure material presented in this disclosure. Accordingly, and to the extent necessary, the description as explicitly stated herein supersedes any conflicting material incorporated herein by reference. Any material, or portion thereof, which is hereby incorporated by reference into the present invention, but which conflicts with existing definitions, statements, or other descriptive materials set forth herein will be incorporated herein only to the extent that no conflict. will appear between the embodied material and the existing descriptive material.
    [0071] Versions of the devices described above may have application in conventional medical treatments and procedures conducted by a medical professional, as well as application in medical treatments and procedures assisted by robotics. By way of example only, various teachings of the present invention can be readily incorporated into a robotic surgical system such as the DAVINCI™ system by Intuitive Surgical, Inc., of Sunnyvale, California, USA. Similarly, those skilled in the art will recognize that the various teachings of the present invention can be easily combined with the various teachings of US Patent No. 6,783,524 entitled "Robotic Surgical Tool with Ultrasound Cauterizing and Cutting Instrument", issued August 31 of 2004, the description of which is incorporated herein by reference.
    [0072] The versions described above may be designed to be discarded after a single use, or they may be designed to be used multiple times. Versions can, in either or both cases, be reconditioned for reuse after at least one use. Reconditioning can include any combination of steps of disassembling the device, followed by cleaning or replacing particular parts, and subsequent reassembly. In particular, some versions of the device can be disassembled, in any number of particular parts or parts of the device can be selectively replaced or removed in any combination. With cleaning and/or replacement of particular parts, some versions of the device can be reassembled for subsequent use in a reconditioning facility, or by a user immediately prior to a surgical procedure. Those skilled in the art will understand that reconditioning a device can utilize 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 this order.
    [0073] By way of example only, the versions described here can be sterilized before and/or after a procedure. In a sterilization technique, the device is placed in a closed, sealed container such as a plastic or TYVEK bag. The container and device can then be placed in a radiation field, such as gamma radiation, X-rays or high energy electrons, which can penetrate the container. Radiation can kill bacteria in the device and container. The sterilized device can then be stored in a sterile container for later use. The device may also be sterilized using any other known technique, including, but not limited to, beta or gamma radiation, ethylene oxide, or water vapor.
    [0074] Having shown and described various embodiments of the present invention, other adaptations of the methods and systems described in the present invention can be carried out by means of suitable modifications by a person 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 those skilled in the art. For example, the examples, modalities, geometry, materials, dimensions, proportions, steps and the like discussed above are illustrative and not necessary. Accordingly, the scope of the present invention is to be considered in accordance with the terms of the following claims and it is understood that it is not limited to the details of structure and operation shown and described in the specification and drawings.
    权利要求:
    Claims (10)
    [0001]
    1. Circular stapler apparatus for stapling fabric, the apparatus comprising: (a) a stapling head assembly; (b) an anvil (240), the anvil comprising: (i) an anvil head (248) comprising a plurality of staple forming pockets formed on a proximal face (250) of the anvil head (248), (ii) ) a proximal shaft (242) extending proximally from the anvil head (248), the proximal shaft (242) including a link (254) and a proximal end portion (256) extending proximally of the link; (iii) a first pivot (252) connecting the anvil head (248) to the link (254); and (iv) a second pivot (258) connecting the link (254) to the proximal end portion (256); wherein the link (254) is configured to pivot about the second pivot (258) in a first direction of rotation, so that the link (254) is configured to pivot with respect to the proximal end portion (256) for a first position and wherein the anvil head (248) is configured to rotate about the first pivot (252) in a second direction of rotation, so that the anvil head (248) is configured to rotate with respect to the link ( 254) of the proximal axis (242) from a perpendicular position, in which the proximal face (250) of the anvil head (248) is disposed perpendicular to a longitudinal axis (LLA) of the proximal end portion (242) for a second tilted position, wherein the first direction of rotation is opposite the second direction of rotation; wherein: the proximal face (250) of the anvil head (248) in the second slanted position defines a plane (PP) that is parallel to a longitudinal axis of the link (254) in the first position and characterized by: a shank drive (253) configured to rotate the anvil head (248) around the first pivot (252).
    [0002]
    2. Circular stapler apparatus according to claim 1, characterized in that the plane (PP) of the anvil head (248) in the second inclined position defines an acute angle with a longitudinal axis (LLA) of the portion of the proximal end (256) of the proximal axis (242), and wherein the apex (VV) of the acute angle is disposed near the first pivot (252).
    [0003]
    A circular stapler apparatus according to claim 2, characterized in that: the anvil (240) is configured to form staples advanced by the staple head assembly; wherein the proximal end portion (256) terminates in a free end located in a third position; wherein the first pivot (252) is located in the fourth position and wherein the fourth position is distal to the third position; and wherein in the second position the apex (VV) of the acute angle is located distal to the third position and proximal to the fourth position.
    [0004]
    4. Apparatus according to claim 3, characterized in that the anvil head (248) is configured to be disposed adjacent to the link (254) and spaced from the proximal end portion (256).
    [0005]
    5. Apparatus according to claim 1, characterized in that the anvil head (248) further comprises a proximally projecting linked connector, wherein the first pivot (252) joins the linked connector to the link ( 254).
    [0006]
    6. Apparatus according to claim 1, characterized in that the drive rod (253) is arranged on the proximal axis (242).
    [0007]
    7. Apparatus according to claim 6, characterized in that the drive rod (253) is translatable within the proximal axis (242).
    [0008]
    8. Apparatus according to claim 7, characterized in that a distal end of the drive rod (253) is operable to advance distally beyond a distal end of the link (254) to rotate the anvil head (248) around the first pivot (252).
    [0009]
    9. Apparatus according to claim 3, characterized in that the anvil (240) is operable to be locked in at least one of the first or second positions.
    [0010]
    10. Apparatus according to claim 1, characterized in that the link (254) is configured to rotate around the second pivot (258) from a position in which the longitudinal axis of the link (254) is coaxial with the longitudinal axis of the proximal end portion (256) to the first position.
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    同族专利:
    公开号 | 公开日
    RU2015125314A|2017-01-10|
    WO2014085303A2|2014-06-05|
    US10856875B2|2020-12-08|
    JP6545620B2|2019-07-17|
    US9498222B2|2016-11-22|
    MX2015006801A|2015-08-14|
    EP2931142B1|2018-07-04|
    US20140144969A1|2014-05-29|
    IN2015DN03985A|2015-10-02|
    EP2931142A2|2015-10-21|
    BR112015012227A2|2017-07-11|
    MX357427B|2018-07-09|
    CN104812316A|2015-07-29|
    EP3400885A1|2018-11-14|
    RU2651095C2|2018-04-18|
    US20170042544A1|2017-02-16|
    JP2015536209A|2015-12-21|
    US20210169488A1|2021-06-10|
    WO2014085303A3|2014-07-31|
    CN104812316B|2017-10-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4304236A|1977-05-26|1981-12-08|United States Surgical Corporation|Stapling instrument having an anvil-carrying part of particular geometric shape|
    JPS576934B2|1978-12-09|1982-02-08|
    US4505414A|1983-10-12|1985-03-19|Filipi Charles J|Expandable anvil surgical stapler|
    SU1242140A1|1984-06-29|1986-07-07|Всесоюзный научно-исследовательский и испытательный институт медицинской техники|Surgical apparatus for placing anastomoses on hollow organs|
    US4700703A|1986-03-27|1987-10-20|Semion Resnick|Cartridge assembly for a surgical stapling instrument|
    US4903697A|1986-03-27|1990-02-27|Semion Resnick|Cartridge assembly for a surgical stapling instrument|
    US4893622A|1986-10-17|1990-01-16|United States Surgical Corporation|Method of stapling tubular body organs|
    US4752024A|1986-10-17|1988-06-21|Green David T|Surgical fastener and surgical stapling apparatus|
    US4805823A|1988-03-18|1989-02-21|Ethicon, Inc.|Pocket configuration for internal organ staplers|
    GR920100358A|1991-08-23|1993-06-07|Ethicon Inc|Surgical anastomosis stapling instrument.|
    US5333773A|1991-08-23|1994-08-02|Ethicon, Inc.|Sealing means for endoscopic surgical anastomosis stapling instrument|
    US5350104A|1991-08-23|1994-09-27|Ethicon, Inc.|Sealing means for endoscopic surgical anastomosis stapling instrument|
    US5197649A|1991-10-29|1993-03-30|The Trustees Of Columbia University In The City Of New York|Gastrointestinal endoscoptic stapler|
    US5344059A|1992-05-19|1994-09-06|United States Surgical Corporation|Surgical apparatus and anvil delivery system therefor|
    US5415334A|1993-05-05|1995-05-16|Ethicon Endo-Surgery|Surgical stapler and staple cartridge|
    US5597107A|1994-02-03|1997-01-28|Ethicon Endo-Surgery, Inc.|Surgical stapler instrument|
    US5465895A|1994-02-03|1995-11-14|Ethicon Endo-Surgery, Inc.|Surgical stapler instrument|
    US5860581A|1994-03-24|1999-01-19|United States Surgical Corporation|Anvil for circular stapler|
    US5732872A|1994-06-17|1998-03-31|Heartport, Inc.|Surgical stapling instrument|
    CA2146508C|1994-08-25|2006-11-14|Robert H. Schnut|Anvil for circular stapler|
    US5704534A|1994-12-19|1998-01-06|Ethicon Endo-Surgery, Inc.|Articulation assembly for surgical instruments|
    US5632432A|1994-12-19|1997-05-27|Ethicon Endo-Surgery, Inc.|Surgical instrument|
    US5839639A|1995-08-17|1998-11-24|Lasersurge, Inc.|Collapsible anvil assembly and applicator instrument|
    US5814055A|1995-09-19|1998-09-29|Ethicon Endo-Surgery, Inc.|Surgical clamping mechanism|
    US5704898A|1995-11-17|1998-01-06|Circon Corporation|Articulation mechanism for an endoscope|
    US7018387B2|1998-10-22|2006-03-28|Innovative Interventional Technologies B.V.|Mechanical anastomosis system for hollow structures|
    NL1007349C2|1997-10-24|1999-04-27|Suyker Wilhelmus Joseph Leonardus|System for the mechanical production of anastomoses between hollow structures; as well as device and applicator for use therewith.|
    US5951576A|1998-03-02|1999-09-14|Wakabayashi; Akio|End-to-side vascular anastomosing stapling device|
    US6769590B2|2001-04-02|2004-08-03|Susan E. Vresh|Luminal anastomotic device and method|
    US6783524B2|2001-04-19|2004-08-31|Intuitive Surgical, Inc.|Robotic surgical tool with ultrasound cauterizing and cutting instrument|
    EP1437970B1|2001-10-05|2010-12-08|Tyco Healthcare Group LP|Tilt top anvil for a surgical fastener device|
    PT1526816E|2002-07-31|2007-11-27|Power Med Interventions Inc|Orifice introducer device|
    CA2501049C|2002-10-04|2012-01-03|Tyco Healthcare Group Lp|Surgical stapling device|
    US6978921B2|2003-05-20|2005-12-27|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument incorporating an E-beam firing mechanism|
    US7143923B2|2003-05-20|2006-12-05|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument having a firing lockout for an unclosed anvil|
    US7380695B2|2003-05-20|2008-06-03|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument having a single lockout mechanism for prevention of firing|
    US7380696B2|2003-05-20|2008-06-03|Ethicon Endo-Surgery, Inc.|Articulating surgical stapling instrument incorporating a two-piece E-beam firing mechanism|
    AU2004249287B2|2003-06-20|2009-12-24|Covidien Lp|Surgical stapling device|
    US7303108B2|2003-09-29|2007-12-04|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument incorporating a multi-stroke firing mechanism with a flexible rack|
    US7434715B2|2003-09-29|2008-10-14|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument having multistroke firing with opening lockout|
    JP4604040B2|2003-10-17|2010-12-22|タイコヘルスケアグループリミテッドパートナーシップ|Surgical stapling device|
    WO2005091986A2|2004-03-19|2005-10-06|Tyco Healthcare Group, Lp|Anvil assembly with improved cut ring|
    US7367485B2|2004-06-30|2008-05-06|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument incorporating a multistroke firing mechanism having a rotary transmission|
    US7784662B2|2005-02-18|2010-08-31|Ethicon Endo-Surgery, Inc.|Surgical instrument with articulating shaft with single pivot closure and double pivot frame ground|
    US20060201989A1|2005-03-11|2006-09-14|Ojeda Herminio F|Surgical anvil and system for deploying the same|
    US8579176B2|2005-07-26|2013-11-12|Ethicon Endo-Surgery, Inc.|Surgical stapling and cutting device and method for using the device|
    US20070194082A1|2005-08-31|2007-08-23|Morgan Jerome R|Surgical stapling device with anvil having staple forming pockets of varying depths|
    US8540132B2|2006-05-16|2013-09-24|Covidien Lp|Tilt anvil assembly|
    US7694041B2|2006-05-19|2010-04-06|Arabella Software Ltd.|Method for managing buffers pool and a system using the method|
    DE602006010845D1|2006-07-07|2010-01-14|Ethicon Endo Surgery Inc|Surgical stapling device|
    US7721930B2|2006-11-10|2010-05-25|Thicon Endo-Surgery, Inc.|Disposable cartridge with adhesive for use with a stapling device|
    US20090082785A1|2007-09-24|2009-03-26|Milliman Keith L|Anvil Delivery Device Accessory|
    US8109426B2|2008-08-12|2012-02-07|Tyco Healthcare Group Lp|Surgical tilt anvil assembly|
    US9386983B2|2008-09-23|2016-07-12|Ethicon Endo-Surgery, Llc|Robotically-controlled motorized surgical instrument|
    US20110011916A1|2009-07-16|2011-01-20|New York University|Anastomosis device|
    US8328062B2|2009-07-21|2012-12-11|Covidien Lp|Surgical instrument with curvilinear tissue-contacting surfaces|
    DE102009059196A1|2009-12-17|2011-06-22|Aesculap AG, 78532|Surgical system for connecting body tissue|
    CN102188271B|2010-03-08|2012-10-10|北京中法派尔特医疗设备有限公司|Nail pushing seat assembly capable of inclining laterally and resetting and anastomat adopting same|
    US8496157B2|2011-02-18|2013-07-30|Covidien Lp|Tilting anvil for annular surgical stapler|
    US9125654B2|2011-03-14|2015-09-08|Ethicon Endo-Surgery, Inc.|Multiple part anvil assemblies for circular surgical stapling devices|
    JP5220153B2|2011-03-29|2013-06-26|富士フイルム株式会社|Tube anastomosis|
    US9498222B2|2012-11-29|2016-11-22|Ethicon Endo-Surgery, Llc|Pivoting anvil for surgical circular stapler|US10213205B2|2012-07-06|2019-02-26|Covidien Lp|T-slot tilt anvil for circular stapling instrument|
    US9498222B2|2012-11-29|2016-11-22|Ethicon Endo-Surgery, Llc|Pivoting anvil for surgical circular stapler|
    US9445816B2|2012-12-17|2016-09-20|Ethicon Endo-Surgery, Llc|Circular stapler with selectable motorized and manual control|
    US9597081B2|2012-12-17|2017-03-21|Ethicon Endo-Surgery, Llc|Motor driven rotary input circular stapler with modular end effector|
    US9668740B2|2013-06-14|2017-06-06|Covidien Lp|Anvil assembly with sliding sleeve|
    US10709452B2|2013-09-23|2020-07-14|Ethicon Llc|Methods and systems for performing circular stapling|
    US9713469B2|2013-09-23|2017-07-25|Ethicon Llc|Surgical stapler with rotary cam drive|
    US20150083772A1|2013-09-23|2015-03-26|Ethicon Endo-Surgery, Inc.|Surgical stapler with rotary cam drive and return|
    US9987001B2|2015-06-12|2018-06-05|Covidien Lp|Surgical anastomosis apparatus|
    US10188386B2|2015-06-26|2019-01-29|Ethicon Llc|Surgical stapler with anvil state indicator|
    US10905415B2|2015-06-26|2021-02-02|Ethicon Llc|Surgical stapler with electromechanical lockout|
    US10478189B2|2015-06-26|2019-11-19|Ethicon Llc|Method of applying an annular array of staples to tissue|
    US10226253B2|2015-06-26|2019-03-12|Ethicon Llc|Firing assembly for circular stapler|
    US10517602B2|2015-06-26|2019-12-31|Ethicon Llc|Surgical stapler with reversible polarity|
    US10307157B2|2015-06-26|2019-06-04|Ethicon Llc|Surgical stapler with anvil seating detection|
    US10271842B2|2015-06-26|2019-04-30|Ethicon Llc|Anvil stabilization features for surgical stapler|
    US10265066B2|2015-06-26|2019-04-23|Ethicon Llc|Surgical stapler with incomplete firing indicator|
    US10456134B2|2015-06-26|2019-10-29|Ethicon Llc|Surgical stapler with reversible motor|
    US10405855B2|2015-06-26|2019-09-10|Ethicon Llc|Firing circuit for surgical stapler|
    BR102019003934A2|2018-03-07|2019-09-17|Ethicon Llc|SURGICAL STAPLER WITH REVERSIBLE POLARITY|
    US10271841B2|2015-06-26|2019-04-30|Ethicon Llc|Bailout assembly for surgical stapler|
    US10194911B2|2015-06-26|2019-02-05|Ethicon Llc|Surgical stapler with ready state indicator|
    US10307165B2|2015-09-24|2019-06-04|Ethicon Llc|Apparatus and method for radially bunching a bodily lumen|
    US9987013B2|2015-09-24|2018-06-05|Ethicon Llc|Surgical staple buttress with magnetic elements|
    US10499909B2|2015-09-24|2019-12-10|Ethicon Llc|Apparatus and method for pleating a bodily lumen|
    US10485548B2|2015-09-24|2019-11-26|Ethicon Llc|Apparatus and method for forming a staple line with trocar passageway|
    US10492790B2|2015-09-24|2019-12-03|Ethicon Llc|Apparatus and method for cinching a straight staple line|
    CN108289684B|2015-12-07|2021-08-31|柯惠有限合伙公司|Anvil assembly and delivery system|
    GB201611306D0|2016-06-29|2016-08-10|Norwegian Univ Of Science And Tech |Surgical stapler and a method of stapling tissue|
    US10542981B2|2016-11-14|2020-01-28|Ethicon Llc|Atraumatic stapling head features for circular surgical stapler|
    US20180132849A1|2016-11-14|2018-05-17|Ethicon Endo-Surgery, Llc|Staple forming pocket configurations for circular surgical stapler anvil|
    US10980542B2|2016-11-14|2021-04-20|Ethicon Llc|Circular surgical stapler with recessed deck|
    US10603041B2|2016-11-14|2020-03-31|Ethicon Llc|Circular surgical stapler with angularly asymmetric deck features|
    US10695068B2|2017-04-28|2020-06-30|Ethicon Llc|Hysteresis removal feature in surgical stapling instrument|
    US10729444B2|2017-04-28|2020-08-04|Ethicon Llc|Liquid-immune trigger circuit for surgical instrument|
    US11039839B2|2017-09-27|2021-06-22|Cilag Gmbh International|Circular stapling instrument with unitary closure rod|
    US11058428B2|2017-09-27|2021-07-13|Cilag Gmbh International|Circular stapling instrument with asymmetric molded shroud components|
    US10835256B2|2017-09-27|2020-11-17|Ethicon Llc|Circular stapling instrument with firing trigger having integral resilient features|
    US10758236B2|2017-09-27|2020-09-01|Ethicon Llc|Circular stapling instrument with torque limiting feature|
    US10751059B2|2017-09-27|2020-08-25|Ethicon Llc|Circular stapling instrument anvil with shank having unitary latches with living hinge|
    US11134952B2|2018-10-15|2021-10-05|Cilag Gmbh International|Dual lever to reduce force to fire in circular surgical stapler|
    US11051819B2|2018-10-15|2021-07-06|Cilag Gmbh International|Latch to prevent back-driving of circular surgical stapler|
    US11207071B2|2018-10-15|2021-12-28|Cilag Gmbh International|Dual stage closure system for circular surgical stapler|
    US11147559B2|2019-03-08|2021-10-19|Cilag Gmbh International|Staple height indicator for powered surgical stapler|
    US11116508B2|2019-03-08|2021-09-14|Cilag Gmbh International|Electrical potential shifting circuit for powered surgical stapler|
    US11123075B2|2019-03-08|2021-09-21|Cilag Gmbh International|Circular surgical stapler|
    US11224432B2|2019-03-08|2022-01-18|Cilag Gmbh International|Timer circuit to control firing of powered surgical stapler|
    US20200281593A1|2019-03-08|2020-09-10|Ethicon Llc|Power control circuit for powered surgical stapler|
    法律状态:
    2018-11-21| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-12-17| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2021-06-29| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2021-08-31| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 25/11/2013, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    US13/688,992|2012-11-29|
    US13/688,992|US9498222B2|2012-11-29|2012-11-29|Pivoting anvil for surgical circular stapler|
    PCT/US2013/071622|WO2014085303A2|2012-11-29|2013-11-25|Pivoting anvil for surgical circular stapler|
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