APPLICATION INSTRUMENT TO DISPENSING SURGICAL FASTENERS

专利摘要:
applicator instruments that have distal end caps to facilitate accurate placement of surgical fasteners during open repair procedures. The present invention relates to an applicator instrument for dispensing surgical fasteners that includes a housing, a triggering system disposed in the housing, an actuator coupled to the housing to actuate the triggering system, an elongated shaft extending from the housing. housing, the elongated shaft having an outside diameter, and a cap attached to the distal end of the elongated shaft, while the cap has a lower distal edge that extends laterally beyond the outside diameter of the elongated shaft. the lower distal edge of the cover has a length that is greater than the outside diameter of the elongated shaft. the cover has a distal end face that slopes upwardly and proximally from the lower distal edge, and the cover has a surgical fastener dispensing window formed in the distal end face for dispensing surgical fasteners. the distribution window has a lower edge that is separated from the lower distal edge.
公开号:BR112014028096B1
申请号:R112014028096-7
申请日:2013-05-09
公开日:2021-06-22
发明作者:Doug Souls；Michael Cardinale；Simon Cohn；Jens-Peter Straehnz；Volker Harms；Jonathan B. Gabel
申请人:Ethicon Llc；
IPC主号:

专利说明:

REFERENCE TO RELATED DEPOSIT REQUESTS
[001] This application refers to US Patent Application No. 13/470,022 assigned to the same applicant, filed on the same date as the present application (ETH5635USNP) and to Patent Application Publications No. US 2010/0292715, US 2010 /0292712, US 2010/0292710, US 2010/0292713 and US 2011/079627, the descriptions of which are incorporated herein by reference. BACKGROUND OF THE INVENTION field of invention
[002] The present invention relates generally to medical devices and surgical procedures to correct tissue defects and more specifically refers to delivery instruments that have end covers that facilitate the accurate placement of surgical fasteners for the fixation of mesh implants during open repair procedures. Description of Related Art
[003] Hernia is a condition whereby a small loop of intestinal viscera or bowel protrudes through a weak site or defect within a patient's abdominal muscle wall or groin. This condition commonly occurs in humans, particularly in men. Hernias of this type can result from a birth defect or can be caused by straining or lifting heavy objects. Lifting heavy objects can place a great deal of stress on the abdominal wall, which can tear or tear to create the defect or opening. Either way, the patient can be left with an unpleasant-looking volume of abdominal contents that protrude through the defect, which can result in pain, reduced lifting abilities and, in some cases, impact of the intestinal viscera or, possibly, other complications if blood flow is cut off to protruding tissue.
[004] A common solution to the problem described above may be surgery. During an open surgical procedure, the defect is resolved and carefully examined through an open incision. Careful examination is necessary due to the network of vessels and nerves that exist in the area of a typical defect, which requires a surgeon to conduct a hernia repair with great skill and attention. Within such an area, vascular structures such as gastric vessels, external iliac vessels and inferior epigastric vessels can be found.
[005] Once the surgeon is familiar with a patient's anatomy, he carefully places the viscera back into the patient's abdomen through the defect. Defect repair may involve closing the defect with sutures or fasteners, but usually involves placing a surgical prosthesis, such as a mesh patch over the open defect and fixing the mesh patch to the abdominal wall to the inguinal floor with conventional suture or with surgical fasteners. The mesh patch acts as a barrier and prevents the bowels from being expelled through the defect.
[006] Currently, there are a variety of surgical instruments and fasteners available to secure a mesh patch to tissue. One type of instrument is a surgical stapler, whereby a stack of unformed staples is contained within a cartridge in a serial manner, sequentially advanced within the instrument by means of a spring mechanism. A secondary feed mechanism separates a more distal staple from the stack, retains the remainder of the stack, and feeds the most distal staple into a staple forming mechanism. Feeding mechanisms of this type are found in U.S. patent 5,470,010 to Rothfuss et al., and in U.S. patent 5,582,616, also to Rothfuss et al.
[007] Another instrument for securing the hernia mesh uses a helical wire fastener that resembles a small spring section. Coil wire fasteners can be stored in series within a 5mm shaft and can be spiraled or rotated into the fabric. A loading spring can be used to bias or feed the plurality of helical fasteners distally within the stem. A protrusion extends into the stem to possibly prevent the stack of fasteners from being ejected by the loading spring and may allow the passage of a swivel fastener. Instruments and fasteners of these types are found in U.S. Patent 5,582,616 to Bolduc et al., U.S. Patent 5,810,882 to Bolduc et al., and in U.S. Patent 5,830,221 to Stein et al.
[008] The references listed above teach regarding the use of a spring mechanism to feed a plurality of fasteners through the surgical instrument. Spring mechanisms typically use a long, soft coiled spring to push a stack of fasteners through a guide or rail inside the surgical instrument shaft. Such types of feed mechanisms can generally be simple and reliable, however they require a supplemental valve mechanism to separate and feed the front surgical fastener from the stack.
[009] The other instruments dispense surgical fasteners with the use of either a single-dose refillable instrument or a rotating magazine that holds a small amount of fasteners. These types of surgical fixation instruments can be found in U.S. Patent 5,203,864 and U.S. Patent 5,290,297, both to Edward Phillips. Such instruments have not been accepted by the surgical community, possibly due to their single-dose capabilities and the large size of the rotating magazine, which may restrict the use of such an instrument for an open procedure.
[0010] An instrument with a reciprocal feeding mechanism is described in U.S. Patent Nos. 5,601,573; 5,833,700; and 5,921,997 to Fogelberg et al. References to Fogelberg et al. teach about a cleat applicator with a feed mechanism that uses a reciprocal feed bar to feed a series stack of cleats. A feeder shim can functionally interconnect and move with the feed bar that moves distally and can slideably interconnect with the feed bar that moves proximally. In this way, the feed shim can point or push the clip stack distally with the feed bar that moves distally and remains stationary with respect to the feed bar that moves proximally. A supplemental valve mechanism separates the most distal clip from the stack and retains the remainder of the stationary stack as the most distal clip is applied to a vessel. Although references to Fogelberg et al. teach about a reciprocal feeding mechanism with a single reciprocity member, they do not teach about the use of the cleat applicator in hernia mesh fixation and also do not teach about the individual insertion or feeding of each cleat by means of of a mobile member.
[0011] Another fastener feeding mechanism that uses reciprocation is the one presented in U.S. Patent 4,325,376 to Klieman et al. A cleat applicator which stores a plurality of cleats in series within a cleat cartridge is disclosed. The cleats are in a stack in which the most proximal cleat can be pushed or fed distally by a pawl that can be readjusted or ordered distally by a reciprocating element or instrument actuated ratchet blade. As the pawl adjusts distally, it can push the clip stack distally. A secondary valve mechanism can also be described. Thus, the feeding mechanism of Klieman et al. teaches the use of a single reciprocating member and pawl to drive or feed the clip stack distally and may require a secondary valve mechanism to feed the most distal clip.
[0012] US patent 3,740,994 to DeCarlo Jr. describes a new reciprocating feeding mechanism that can order a plurality of clips or cleats, and can make them ready for unloading by alternating one of a pair of spring bundle assemblies opposites. The clamps reside in series within a guide rail with a fixed spring bundle assembly that extends to the plane of the guide rail. A reciprocating spring bundle assembly may be opposite and extend inward toward the fixed spring bundle assembly. When the reciprocating spring bundle assembly moves distally, each of the individual spring bundles in the assembly can interconnect with a clamp and move it distally. Clamps that move distally deflect the individual spring bundles local to the fixed spring bundle assembly, and the deflected spring bundles may return to the undeflected position after the clamp passes. When the moving spring bundle assembly moves proximally, the fixed spring bundle assembly spring bundles hold the clamps in a stationary position and prevent their proximal movement. A guide rail and secondary valve mechanism can be provided to separate a single clip from the stack for forming and can hold the stack of clips stationary while the single clip is formed.
[0013] Additionally, similar feeding mechanisms are disclosed in U.S. Patent No. 4,478,220 to DiGiovanni et al. and in U.S. Patent 4,471,780 to Menges et al. These two related patents teach a reciprocating feeding mechanism that uses a fixed element and a reciprocating element to feed or order a plurality of cleats distally. Angled flexible fingers can be curvedly attached to the reciprocating member and operatively engage the tabs when moving distally and slidingly engage with the tabs when moving proximally. Angled flexible fingers within the fixed element deflect out of the passage when the cleats move distally and appear to stop proximal cleat movement after the cleat has passed. A secondary valve mechanism is also featured.
The commonly assigned patent application publication U.S. 2002/0068947, the disclosure of which is incorporated herein by reference, teaches a device for releasing a plurality of individual surgical fasteners. In one embodiment, the delivery device includes a drive mechanism that has both distal and proximal ends. The drive mechanism has a moving element and a fixed opposite element, so that the moving element can be moved proximally and distally with respect to the delivery device. The moving element has a sharpened distal end for piercing tissue. The device includes at least one surgical fastener located between the first and second elements. Each of the surgical fasteners has a proximal end and a distal end. The device also has an actuator that has at least two sequential positions. A first position for advancing the movable member distally and piercing tissue and a second position for retracting the movable member proximally, thus installing a distal end of the fastener.
[0015] The tacks for the fixation of mesh were, in general, produced from metal, such as stainless steel, nitinol or titanium. Metal nails were needed to provide sufficient holding strength, penetration of various prosthetic networks and for ease of fabrication. Until recently, there were no absorbable nails available on the market, and surgeons could only use absorbable sutures to provide a means of attachment that was not permanently left in the body. However, the use of sutures is excessively difficult for some repair procedures. With surgical trends leading to minimal foreign body accumulation, an absorbable tack with minimal profile is required.
[0016] Despite the advances described above, there still remains a need for further improvements. In particular, there is a need for delivery instruments that enable surgeons to accurately and easily dispense surgical fasteners into tissue for tissue repair procedures, there is a need for delivery instruments that enable surgical fasteners to be Precisely and easily dispensed in small areas and by surgical fasteners that are absorbable. SUMMARY OF THE INVENTION
[0017] In one embodiment, an applicator instrument is a multi-shot device that has a curved shaft that delivers surgical fasteners for securing mesh material to soft tissue. The applicator instrument can be used for open surgical repair procedures that resolve ventral hernias. In one embodiment, a plurality of surgical fasteners are housed within the shaft of the dispensing instrument and the distal end of the shaft is oriented at an angle to the proximal end of the shaft that is attached to a handle.
[0018] In one embodiment, the multi-shot applicator instrument has multiple strip implants or surgical fasteners stored along the length of the shaft. The applicator has a trigger system that includes a pair of flat stamps with flap features. One stamp is stationary and the other stamp cycles in proximal and distal directions to facilitate incremental feeding of surgical fasteners along the length of the shaft. The flat nature of the stamps facilitates assembly and flexibility as the stamps are guided through a curved path. In one embodiment, a pair of long molded guide components creates the curved path of displacement with minimal distortion and friction. The molded components are desirably contained within the shaft, which may be a stainless steel cannula.
[0019] In one embodiment, at the distal end of the shaft, a wire installation spring applies a downward force on the distal end of the stationary tab stamping. The force applied by the wire spring positions and aligns the surgical fasteners to the dispensing end of the device. When the surgical fasteners reach a forward position at the distal end of the shaft, the cycled stamp is retracted and the wire spring moves the front fastener down from the advance channel into the firing channel. From the firing channel, the fastener is dispensed through a firing system that includes a firing rod and a system of stored energy in the cable. The wire spring provides a spring force mechanism that is more economical and easier to mount inside a system.
[0020] In one embodiment, a contoured tip or cover is attached to the distal end of the shaft. The contours of the cover make the distal end of the applicator instrument atraumatic to a skirted mesh.
[0021] In one embodiment, the cover has a lower distal edge that can be pronounced and that can have a curved bottom surface. The lower distal edge is preferably advanced to join a flanked mesh and fits within pocket areas or corners of various brands and sizes of flanked meshes, which ensures that the surgical fastener distribution window is at a certain distance above and at a certain distance from the joint or hem of the flanked mesh.
[0022] In one embodiment, the cover has extensions or wing-like features that are aligned with respect to and laterally with respect to the lower distal edge. The lower distal edge and lateral extensions preferably allow the applicator instrument to slide more freely within the mesh joint and distribute forces over a wider mesh area when a physician applies advancing forces on the applicator instrument handle and against pressure on the opposite tissue. The extensions also stabilize and guide the tip of the device to ensure the strips are distributed upward into the targeted top layer of a mesh-lined implant.
[0023] In one embodiment, the cover has a sloping distal face that slopes up and proximally from the lower distal edge to bend the top mesh piece of an open side mesh in the direction opposite the joint area. mesh. In one embodiment, the cover has a bottom surface that is bordered by a piece of mesh bottom of the open flanked mesh.
[0024] The cover is desirably affixed to the distal end of the shaft, so that it does not rotate or translate relative to the shaft. In one embodiment, the proximal end of the cover transitions to a cylindrical shape that matches the outside diameter (eg 8 mm OD) of the shaft.
[0025] Atraumatic and contoured cover does not have sharp edges at the distal end of the shaft. In this way, a physician can slide the cover along the interior of the seam of an open flanked mesh when positioning or repositioning the device for initial or subsequent surgical fastener installation and the cover will not get caught in meshes of varying pore sizes.
[0026] In one embodiment, the handle and the actuator or actuating portion of the applicator instrument is repositioned above the housing or main body of the device. Such a configuration places the applicator instrument trigger in a position that provides multiple advantages to the user. First, the handle is located in a position that is ergonomically acceptable and allows the user's elbow to be in a neutral position when ready to fire. In one modality, the handle is angled forward towards the distal end of the applicator instrument to facilitate a neutral position for the user's wrist as well. The position of the handle above the main body portion of the applicator instrument enables the device to clear the patient's body, which is preferred in open abdominal procedures.
[0027] The combination of an upward curvature of a curved axis and a forward angulation of the handle complement each other to facilitate the distribution of surgical fasteners upward in the intended direction of fixation. In one embodiment, the dispensing instrument has a counter/indicator that shows how many surgical fasteners have been fired or remain in the dispensing instrument. The counter/indicator is preferably positioned on top of the line to provide easy visibility when the line is upright and ready to fire. Coupled with a locking mechanism, the counter/indicator also indicates when strips are running out and when the instrument is empty.
[0028] In one modality, the actuator has a linear movement that allows the device to act with a sense of security and stability in the hand of a surgeon. The orientation of the trigger and the location of the counter/indicator suggest the proper orientation or intended use of the device. In one embodiment, the actuator has an index finger groove on the surface of the actuator which additionally suggests the proper orientation of the device.
[0029] The linear movement of the trigger provides consistency in relation to the force and distance required to squeeze the trigger regardless of the up or down position along the length of the trigger where finger forces are concentrated.
[0030] In one embodiment, a vertical cable guidance is required to correctly orient the surgical fasteners with the position of the hernia mesh against the abdominal wall. The tip's slanted face geometry also preferably ensures that when the device is oriented correctly, a surgical fastener can be distributed in the correct orientation with respect to the mesh and abdominal wall tissue and positioned at a preferential distance away from the joint. of the flanked mesh.
[0031] The actuator moves along a linear path, which facilitates a unique type of rack gear linkage to perform a translation movement to the trigger system located in the applicator instrument housing. In one embodiment, the trigger system includes a stored energy system used to apply energy to dispense a surgical fastener. The trigger system has a compression spring, also referred to herein as a trigger spring, disposed within a box-like component, a link coupled to the actuator to compress the trigger spring to store energy in the spring. trigger and a trigger spring release to release the compressed spring at a predetermined load and timed interval relative to the trigger position.
[0032] In one embodiment, the actuator is supported internally by a pair of swivel members. The driver preferably has only two pivot point contacts so that potential linkage risks are eliminated. The swivel members are coupled together with a gear system, which ensures that the two members will rotate at the same rate. In addition, a torsional return spring can be connected between the swivel members to ensure that after actuation of the trigger, the trigger and trigger system are returned to an early stage of a trigger cycle and to the lowest power state . The configuration of the trigger return spring and its position relative to the trigger can allow for an almost uniform and low trigger return force (preload and trigger displacement force for operator hand only), which is an improvement in relation to the high drive forces required in previous applicator instruments. An alternative modality may include a torsional spring that acts directly on the actuator. Torsional spring provides a moment that effectively counteracts any moment applied by the user during device actuation.
[0033] In one embodiment, an applicator instrument for dispensing surgical fasteners includes a housing that defines a bottom of the applicator instrument, a firing system disposed in the housing and that is movable in the distal and proximal directions along a first axis, and a handle extending upwardly from the housing along a second axis defining an acute angle with the first axis, the handle having an upper end defining a top of the applicator instrument. In one embodiment, the handle is located at a proximal end of the dispensing instrument and is angled so as to hang toward a distal end of the dispensing instrument. The applicator instrument preferably includes a handle mounted actuator to actuate the trigger system.
[0034] The applicator instrument preferably has an elongated shaft extending from the housing. In one embodiment, a plurality of surgical fasteners are loaded into the elongated shaft to be dispensed from the distal end of the elongated shaft when the driver is dragged. The elongated shaft desirably has a proximal section that extends along the first axis and a distal section that is angled at an angle to the proximal section to extend upward toward the top of the applicator instrument. In one embodiment, the shaft has a curve between the proximal shaft section and the distal shaft section.
[0035] In one embodiment, the applicator instrument includes a link that couples the trigger to the cable and to the triggering system. In one embodiment, the link preferably restricts actuator movement to a linear path that extends along a third axis that defines an acute angle with the first axis and that is perpendicular to the second axis of the cable.
[0036] In one embodiment, the driver is movable along a linear trajectory that extends along the third axis to move toward the proximal end of the applicator instrument to activate the link, which, in turn, moves the system of firing along the first axis towards the distal end of the applicator instrument.
[0037] In one embodiment, the applicator instrument desirably includes a guide member disposed within the elongated axis and extending along the length of the elongated axis. The guide member can be angled or curved. In one embodiment, the guide member is curved and has a curved conduit that extends along the length of the guide member. The curved conduit may include an advance channel for advancing the surgical fasteners toward the distal end of the elongated shaft and a trigger channel for dispensing the surgical fasteners at a time from the distal end of the elongated shaft.
[0038] In one embodiment, the applicator instrument preferably includes an advancing member disposed in the advancing member channel and which is movable in the distal and proximal directions to advance the surgical fasteners toward the distal end of the elongated shaft and a anti-support member disposed in the advancing element channel and opposite the advancing element to prevent the surgical fasteners from moving towards the proximal end of the elongated shaft.
[0039] In one embodiment, a trigger rod is disposed in the trigger channel and is movable between a retracted position and an extended position to dispense a front surgical fastener from the distal end of the elongated shaft. A more distal end of the anti-support member desirably includes an installation beam that receives a front surgical fastener from the surgical fasteners of the advance element and transfers the front surgical fastener from the advance element channel to the firing channel to be aligned with the firing rod. The applicator instrument desirably has a wire installation spring attached to the guide member and having a distal end that contacts the installation beam to apply a spring force to urge the installation beam into alignment with the trigger channel.
[0040] In one embodiment, the guide member desirably includes a window formed in an outer wall thereof that is aligned with the installation beam. The distal end of the wire installation spring preferably passes through the window to engage the installation beam.
[0041] In one embodiment, the advancement member and the anti-support member are elongated, flat metal stampings with tabs extending therefrom that project toward the distal end of the elongated shaft. In one embodiment, the tabs on the anti-support member extend toward the advance member and the tabs on the advance member extend toward the anti-support member.
[0042] In one embodiment, the link may further include a first swivel link having upper gear teeth and lower gear teeth, the first swivel link being disposed within an upper portion of the actuator and a first pivot attaching to swiveling the first swivel connection to the upper portion of the actuator. The link may also include a second swivel link having upper gear teeth and lower gear teeth, the second swivel link being disposed within a lower portion of the actuator and a second pivot pivotally secures the second swivel link to the lower portion of the actuator. The lower gear teeth of the first swivel link preferably intermingle with the upper gear teeth of the second swivel link so that when the driver is tightened, the first and second swivel links rotate at the same rate.
[0043] In one embodiment, the applicator instrument desirably includes a first rack located near the upper end of the handle to mate with the upper gear teeth of the first swivel link and a second rack located near an upper end of the housing of the applicator instrument to blend with the lower gear teeth of the second swivel link.
[0044] In one embodiment, a first elongated slot is formed in an upper section of the cable to receive the first pivot. The first elongated slot desirably extends along a fourth axis which is parallel to a third axis and the first pivot is movable in the proximal and distal directions within the first elongated slot. In one embodiment, a second elongated slot is formed in a lower section of the cable to receive the second pivot. The second elongated slot preferably extends along a fifth axis that is parallel to both the third and fourth axis and the second pivot is movable in the proximal and distal directions within the second elongated slot. In one embodiment, when the actuator is depressed, the first and second pivots desirably move simultaneously through the respective first and second elongated slots and toward the proximal end of the applicator instrument. The elongated first and second slots ensure that the two swivel links rotate at the same rate and can be used in place of the gear teeth and racks described in the previous embodiments.
[0045] In one embodiment, the applicator instrument desirably includes an actuator rack connected to a lower end of the actuator to move simultaneously with the actuator in the distal and proximal directions along the third axis and a drive gear having a first set of gear teeth that mesh with the drive rack and a second set of gear teeth that mesh with the teeth on a sliding hook that slides in the distal and proximal directions along the first axis. The actuator rack is separate from the actuator components so as to allow a certain amount of performance and rotation between the two components. Furthermore, as a separate component, the actuator rack can be produced from a stronger material and in a more economical way.
[0046] In one embodiment, when the trigger is squeezed and moves proximally, the drive gear moves the trigger system distally. In one embodiment, when the trigger moves distally, the drive gear desirably moves the trigger system proximally.
[0047] In one embodiment, the applicator instrument preferably includes a counter located at an upper end of the handle to indicate the amount of surgical fasteners dispensed and/or that remain in the applicator instrument. In one embodiment, the counter desirably includes a counter window formed at the upper end of the handle, a rotating disk visible through the counter window, a rotating gear connected with the rotating disk and having teeth that extend below the disk. swivel and a lock counter hingedly attached to the handle to switch between a forward position and a rear position. The interlock counter preferably has a first tooth which engages the rotating gear teeth when in the forward position and a second tooth which engages the rotating gear teeth when in the rear position. The counter preferably includes a latch counter spring in contact with the latch counter to normally drive the latch counter to the forward position. In one embodiment, when the actuator is fully tightened, the first swivel link contacts the lock counter to overcome the force of the lock counter spring to switch the lock counter to the rear position, whereby the first and second locking counter teeth engage the rotating gear teeth to rotate the rotating disc. The spring member on the interlock counter allows for additional over-shift of the swivel link after the counter completes its counting cycle.
[0048] In one embodiment, an applicator instrument for dispensing surgical fasteners desirably includes a housing that defines a bottom of the applicator instrument, a firing system disposed in the housing and that is movable in the distal and proximal directions, and a handle that extends upward from the housing and is angled toward a distal end of the applicator instrument, the handle having an upper end defining a top of the applicator instrument. The applicator instrument desirably includes an axle that extends distally from the housing near the bottom of the applicator instrument, the axle having a proximal section that extends along a longitudinal axis of the applicator instrument and a distal section that is oriented to an angle relative to the proximal section to extend upward toward the top of the delivery tool. A plurality of surgical fasteners are preferably loaded in series within the shaft and a cover is secured to the distal end of the shaft, the cover having a lower distal edge and a distal face that slopes upwardly and proximally from from the lower distal edge. The cover preferably includes a delivery window formed on the distal face, the delivery window having a lower end that is spaced from the lower distal edge. An actuator is desirably mounted on the handle to actuate the trigger system to dispense surgical fasteners through the delivery window.
[0049] In one embodiment, the applicator instrument preferably includes a guide member disposed within the axle and extending along the length of the axle, the guide member having a curved conduit that extends along the length. of the guide member. The curved conduit desirably includes an advance channel for advancing the surgical fasteners towards the distal end of the shaft and a trigger channel for dispensing the surgical fasteners through the dispensing window of the cover. An advancing element is preferably disposed in the advancing element channel and is movable in the distal and proximal directions to advance the surgical fasteners towards the distal end of the shaft and a stationary anti-support member is preferably disposed in the channel. of advance element and opposes the advance element to prevent the surgical fasteners from moving towards the proximal end of the shaft.
[0050] In one embodiment, a trigger rod is disposed in the trigger channel and is movable between a retracted position and an extended position to dispense surgical fasteners from the distal end of the shaft. The stationary anti-support member preferably has an installation beam at a distal end thereof that receives a front surgical fastener among the surgical fasteners of the advance element and transfers the front surgical fastener from the advance element channel to the advance element channel. trigger to be aligned with the trigger rod. In one embodiment, a wire installation spring is attached to the guide member and has a distal end that contacts the installation beam to urge the installation beam into alignment with the trigger channel.
[0051] In one embodiment, an applicator instrument for dispensing surgical fasteners includes a housing, a firing system disposed in the housing, an actuator coupled to the housing to actuate the firing system, an elongated shaft extending from the housing, the elongated shaft having an outside diameter and a cap attached to the distal end of the elongated shaft, whereby the cap has a lower distal edge extending laterally beyond the outside diameter of the elongated shaft.
[0052] In one embodiment, the housing defines a bottom of the applicator instrument. The applicator instrument preferably has a handle which extends upward from the housing and which is angled or biased towards the distal end of the elongated shaft. In one embodiment, the handle has a top end that defines a top of the applicator instrument. The actuator can be an actuator that is mounted on the cable.
[0053] The firing system is desirably disposed in the housing and is movable in the distal and proximal directions along the first axis. The cable preferably extends along a second axis which defines an acute angle with the first axis of about 70 to 80° and more preferably about 75°.
[0054] In one embodiment, the lower distal edge of the cover desirably has a length that is greater than the outer diameter of the elongated shaft. In one embodiment, the cover has a distal end face that slopes upwardly and proximally from the lower distal edge.
[0055] In one embodiment, the cover preferably has a surgical fastener dispensing window formed in the distal end face for dispensing the surgical fasteners. The dispensing window desirably has a lower end that is spaced apart from the lower distal edge. In one embodiment, the cover has a bottom surface and the lower distal edge of the cover has a thickness that extends between the bottom surface of the cover and the lower end of the delivery window.
[0056] In one embodiment, the proximal end of the cover has an outer diameter of about 6 to 12 mm and more preferably about 8 mm which corresponds and conforms to the outer diameter of the elongated shaft.
[0057] In one embodiment, the elongated shaft is mounted to the housing and extends distally from the housing. In one embodiment, the elongated shaft has a proximal section that extends along a first axis and a distal section that is angled at an angle relative to the proximal section to extend upward toward the top of the applicator instrument. In one embodiment, the elongated shaft has a curve located between the proximal shaft section and the distal shaft section.
[0058] These and other preferred embodiments of the present invention will be as described in detail below. BRIEF DESCRIPTION OF THE DRAWINGS
[0059] Figure 1 shows a left side view of an applicator instrument for dispensing surgical fasteners according to an embodiment of the present invention.
[0060] Figure 2 shows a perspective view from a right side of the applicator instrument of Figure 1 during a surgical procedure according to an embodiment of the present invention.
[0061] Figure 3 shows a perspective view of a surgical fastener dispensed from the applicator instrument shown in Figures 1 and 2 according to an embodiment of the present invention.
[0062] Figure 4A shows a right side elevation view of a proximal end of an applicator instrument used to dispense surgical fasteners with a right half of a handle removed to show the internal components in accordance with an embodiment of the present invention.
[0063] Figure 4B shows the proximal end of the applicator instrument of Figure 4A with a driver and a two-stage drive gear being transparent, in accordance with an embodiment of the present invention.
[0064] Figure 4C shows a perspective view of the proximal end of the applicator instrument shown in Figure 4A.
[0065] Figures 5A to 5C show a counter for counting how many surgical fasteners were dispensed from an applicator instrument for dispensing surgical fasteners according to an embodiment of the present invention.
[0066] Figure 6A shows an applicator instrument during a first stage of a firing cycle according to an embodiment of the present invention.
[0067] Figure 6B shows an applicator during a second stage of a firing cycle according to an embodiment of the present invention.
[0068] Figure 6C shows an applicator during a third stage of a firing cycle according to an embodiment of the present invention.
[0069] Figure 6D shows an applicator during a fourth stage of a firing cycle according to an embodiment of the present invention.
[0070] Figure 6E shows an applicator during a fifth stage of a firing cycle according to an embodiment of the present invention.
[0071] Figure 6A-1 shows the counter of Figures 5A to 5C during the first stage of the firing cycle shown in Figure 6A.
[0072] Figure 6B-1 shows the counter during the second stage of the firing cycle shown in Figure 6B during which a spinning link began to contact a counter.
[0073] Figure 6C-1 shows the counter during the third stage of the firing cycle shown in Figure 6C during which the counter began to deflect a counter break beam.
[0074] Figure 6D-1 shows the counter during the fourth stage of the firing cycle shown in Figure 6D during which the counter pivoted to a rearward position.
[0075] Figure 6E-1 shows the counter during the fifth stage of the firing cycle shown in Figure 6E during which the counter break beam is further deflected by a swivel link.
[0076] Figures 7A to 7C show the movement of the counter of Figures 5A to 5C during the dispensing of the last surgical fastener according to an embodiment of the present invention.
[0077] Figure 8 shows a side elevation view of an advancing element that cycles back and forth to advance surgical fasteners toward a distal end of an applicator instrument and an anti-support member to prevent fasteners surgical procedures to move proximally in accordance with an embodiment of the present invention.
[0078] Figure 9 shows a cross-sectional view of an elongated shaft of an applicator instrument that includes the advancement member and the anti-support member shown in Figure 8 in accordance with an embodiment of the present invention.
[0079] Figure 10A shows a cross-sectional view of a distal end of a straight guide member disposed within an axis of an applicator instrument that includes the advancement member and the anti-support member shown in Figure 8 according to an embodiment of the present invention.
[0080] Figure 10B shows the right guide member of Figure 10A with a wire installation spring attached to the guide member according to an embodiment of the present invention.
[0081] Figure 11A shows a distal end of an applicator instrument that includes a left guide member, a wire installation spring, and a cover having a surgical fastener dispensing window in accordance with an embodiment of the present invention.
[0082] Figure 11B shows a bottom view of Figure 11A.
[0083] Figures 12A to 12E show a method of aligning a front surgical fastener with an insertion fork at a distal end of a firing rod in accordance with an embodiment of the present invention.
[0084] Figure 13A shows a perspective view of a cover attached to a distal end of an elongated shaft of an applicator instrument in accordance with an embodiment of the present invention.
[0085] Figure 13B shows a bottom plan view of Figure 13A.
[0086] Figure 13C shows a cross-sectional view of the cover shown in Figure 13A.
[0087] Figure 14A shows a top view of an open flanked mesh having a distal end of an applicator instrument inserted into a central opening of the open flanked mesh according to an embodiment of the present invention.
[0088] Figure 14B shows an enlarged cross-sectional view of Figure 14A.
[0089] Figure 14C shows a one-stage view of an open hernia repair procedure with an open flanked mesh inserted into a surgical opening and an applicator instrument used for mesh fixation according to an embodiment of the present invention.
[0090] Figure 15A shows a left side view of an applicator instrument having an elongated shaft and a cap attached to a distal end of the elongated shaft in accordance with an embodiment of the present invention.
[0091] Figure 15B shows a perspective view of the cover shown in Figure 15A.
[0092] Figure 15C shows a top perspective view of the cover shown in Figure 15B.
[0093] Figure 16 shows the cover at the distal end of the applicator instrument of Figures 15A to 15C inserted between top and bottom mesh pieces of an open flank mesh according to an embodiment of the present invention.
[0094] Figure 17 shows an applicator instrument that has an elongated shaft that is rotatable in accordance with an embodiment of the present invention.
[0095] Figures 18A to 18C show an edge adapter cover with an incorporated hinge that can be secured to a distal end of an elongated shaft of an applicator instrument in accordance with an embodiment of the present invention.
[0096] Figure 19 shows a side view of a distal end of an applicator instrument for dispensing surgical fasteners that include a curved outer shaft and a swivel shaft element to change the orientation of a distal end of the curved outer shaft with respect to a proximal end of the curved outer shaft in accordance with an embodiment of the present invention.
[0097] Figure 20 shows a cross-sectional view of the distal end of the applicator instrument that includes the curved outer shaft shown in Figure 19.
[0098] Figure 21 shows a perspective view of a distal end of an applicator instrument for dispensing surgical fasteners including a hinge element and an external axis swivel element to change the orientation of the distal end of the external axis with respect to a proximal end of the outer shaft in accordance with an embodiment of the present invention.
[0099] Figure 22 shows a cross-sectional view of the external shaft shown in Figure 21. DETAILED DESCRIPTION
[00100] Referring to Figure 1, in one embodiment, an applicator instrument 30 for dispensing surgical fasteners has a proximal end 32, a distal end 34 and a longitudinal axis A1-A1 extending between the proximal and distal ends. The applicator instrument 30 desirably includes a housing 35, a handle 36 that extends upward from the housing, an actuator 38 mounted on the handle, and an elongated shaft 40 that extends distally from the housing 35. The elongated shaft 40 includes a first section 42 that extends along the longitudinal axis A1-A1 of the applicator instrument and a second section 44 that is angled or curved with respect to the first section 42.
[00101] In one embodiment, a cover 46 is secured to the distal end of the elongated shaft 40. The cover 46 preferably has a distal face 48 that slopes away from a lower distal edge of the cover and toward the proximal end 32 of the applicator instrument 30.
[00102] In one embodiment, the handle 36 includes an upper end 50 that contains a counter 52 that indicates how many surgical fasteners have been dispensed and/or how many surgical fasteners remain loaded in the dispensing instrument. In one embodiment, the counter 52 locks the applicator instrument from further use when the last surgical fastener is dispensed. In one embodiment, counter 52 is visible at the upper end 50 of handle 36 to provide a visual indicator of how many of the surgical fasteners have been dispensed. The upper end of the handle defines the top of the applicator instrument 30. The housing 35 has a lower end 54 which defines the bottom of the applicator instrument 30.
[00103] In one embodiment, the handle 36 is preferably biased towards the distal end 34 of the applicator instrument 30 to provide improved ergonomics for a surgeon, such that the surgeon can keep his elbow and wrist in one position. Natural. In one embodiment, the handle 36 preferably extends along a longitudinal axis A2-A2 that defines an acute angle α1 with the longitudinal axis A1-A1 of the applicator instrument. In one embodiment, the angle α1 is about 70 to 80° and more preferably about 75°. During a surgical procedure, the lower end 54 of the housing 35 preferably faces toward a patient and the upper end 50 of the handle 36 preferably faces away from the patient.
[00104] Referring to Figure 2, in one embodiment, the applicator instrument 30 shown in Figure 1 can be used to dispense surgical fasteners during a surgical procedure, such as an open hernia repair procedure. In one embodiment, the applicator instrument 30 has a plurality of surgical fasteners that are preloaded onto the shaft 40 to be dispensed when the driver 38 is depressed. In one embodiment, a single surgical fastener is dispensed each time trigger 38 is depressed. In one embodiment, the applicator instrument 30 is used to dispense surgical fasteners for securing a mesh, such as a surgical mesh, to a patient's soft tissue.
[00105] In Figure 2, the second angled section 44 of axis 40 was inserted into a surgical opening. The lower end 54 of the housing 35 faces towards the patient and the upper end 50 of the handle 36 faces away from the patient. A surgeon may grip handle 36 and squeeze actuator 38 to dispense a surgical clamp from the distal end of shaft 40. In one embodiment, the surgeon pulls actuator 38 proximally (i.e., toward the proximal end 32 of the applicator instrument) to dispense surgical fasteners. The surgeon preferably applies back pressure on the patient's tissue that opposes the distal end of the applicator instrument. In one embodiment, a single surgical fastener is dispensed each time the surgeon pulls the trigger 38 proximally and the system ends the trigger cycle when the trigger is released to allow the trigger to return distally.
[00106] The second section 44 of the shaft 40 which is curved and/or angled relative to the first section 42 of the shaft preferably facilitates accurate placement of surgical fasteners into soft tissue. In one embodiment, the applicator instrument 30 is used during an open surgical repair procedure to resolve the ventral hernias. The most distal end of the curved shaft 40 is inserted into an open-sided mesh pocket that has a top mesh piece and a bottom mesh piece that are joined at a peripheral joint, over which surgical fasteners are dispensed from. Distal end of the applicator instrument to secure the top mesh piece to the soft tissue.
[00107] In one embodiment, the handle 36 and the driver 38 are positioned above the housing 35 of the applicator instrument. Such a configuration places the actuator 38 in a position that provides multiple advantages to a surgeon. First, handle 36 is located in a position that allows a surgeon's elbow to be in a natural position. Handle 36 is also angled forward toward distal end 34 of applicator instrument 30 to facilitate a natural position for the surgeon's wrist. In addition, the position of the handle 36 above the housing 35 of the applicator instrument 30 allows the bottom end 52 of the housing 35 to unclog the patient's body, which is particularly preferred for open abdominal procedures.
[00108] In one embodiment, the combination of an upward shaft curvature 40 and the forward angulation or propensity of the handle 36 towards the distal end 34 of the applicator instrument complement each other to facilitate the distribution of surgical fasteners along a upward trajectory in the intended direction of attachment.
[00109] In one embodiment, the applicator instrument 30 is a multi-shot device including a plurality of surgical fasteners stored therein as disclosed in the same assignable Patent Application Publications No. U.S. 2010/0292715; U.S. 2010/0292712; U.S. 2010/0292710; U.S. 2010/0292713; and U.S. 2011/079627, the descriptions of which are incorporated herein by reference. In one embodiment, the applicator instrument includes a plurality of surgical fasteners stored in series along the length of the axle 40. The axle 40 preferably includes a pair of flat stampings that have tab features incorporated therein. One of the flat stamps is stationary to prevent the surgical fasteners from moving proximally within the shaft 40. The other flat stamp cycles in the distal and proximal directions each time the actuator 38 is tightened and then released to facilitate the incremental advancement of the surgical fasteners along the length of the shaft 40. The flat nature of the stamps endows the stamps with flexibility so that the stamps can curve to adapt to the curvature of the axis while guiding the surgical fasteners along the defined curved path by axis 40.
[00110] In one embodiment, the applicator instrument includes a molded guide member that defines the curved path of travel for the surgical fasteners. Flat stamps are placed inside the molded guide member. The molded guide member preferably provides minimal friction and distortion on the surgical fasteners, the advance member and the anti-support member as the surgical fasteners move distally through the shaft 40. In one embodiment, the guide member is produced from a molded plastic and includes two halves that are assembled together by being contained within a conduit that extends through the elongated shaft 40.
[00111] Referring to Figure 3, in one embodiment, a plurality of surgical fasteners are preloaded into the shaft of the applicator instrument 30 shown in Figures 1 and 2. A single surgical fastener 60 includes a proximal end 62 and a distal end 64 having a pair of tapered ends 66, 68 that are spaced apart from one another to capture the mesh fibers between the tapered ends. In one embodiment, surgical fastener 60 has one or more of the features disclosed in commonly assigned Patent Application Publications No. US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713 and US 2011/ 079627, the descriptions of which are incorporated herein by reference.
[00112] With reference to Figures 4A and 4B, in one embodiment, the applicator instrument 30 includes the housing 35 that contains a trigger system and a cable 36 that protrudes upward from the housing, whereby the cable has an end upper 50 containing counter 52. The handle includes actuator 38 which is adapted to be pulled along a linear trajectory toward proximal end 32 of applicator instrument 30. In one embodiment, actuator 38 is adapted to move with the along a linear path A3-A3 defining an angle α2 of about 10 to 20° and more preferably about 15° to the longitudinal axis A1-A1 of the applicator instrument 30.
[00113] In one embodiment, the applicator instrument 30 includes a trigger system 70 that has a spring block 72, a trigger rod 74, and a trigger spring that stores energy as the trigger 38 is depressed. Firing system 70 preferably includes one or more features similar to those disclosed in commonly assigned Patent Application Publication Nos. US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713 and US 2011/079627, the descriptions of which are incorporated herein by reference. Trigger system 70 is desirably coupled to the driver via a driver rack 76 which slides proximally and distally with the driver along axis A3-A3. The driver rack is coupled to a drive gear 78 which rotates in a counterclockwise direction when the driver 38 is tightened towards the proximal end of the dispensing instrument and rotates in a clockwise direction when the driver 38 is released and moves distally towards the distal end of the applicator instrument. Drive gear 78 has outer gear teeth 80 that mesh with teeth provided on an upper end of a slide hook 82. As drive gear 78 rotates in a counterclockwise direction, hook 82 slides in one direction distally along the A1-A1 axis. As drive gear 78 rotates in a clockwise direction, hook 82 slides in a proximal direction along axis A1-A1, preferably with a gear ratio of 0.9 to 1.5.
[00114] In one embodiment, the applicator instrument 30 includes a ratchet pawl 84 having a ratchet spring, which is similar to the subassembly disclosed in the same assignee Patent Application Publications No. US 2010/0292715, US 2010/ 0292712, US 2010/0292710, US 2010/0292713 and US 2011/079627, the descriptions of which are incorporated herein by reference. Ratchet pawl 84 ensures that slide hook 82 moves to its most distal position before it can change direction and move proximally back to the original position shown in Figure 4A.
[00115] In one embodiment, the applicator instrument 30 includes a actuator return spring 86 which typically urges the actuator 38 to move distally. The actuator return spring 86 includes a first arm 88 that is secured to the molded portion of the handle 36 and a second arm 90 that preferably engages the actuator 38. In one embodiment, a proximal end of the actuator 38 has a tab 92 and second arm 90 engages the tab to normally drive the actuator distally. Actuator return spring 86 preferably stores energy therein as actuator 38 is depressed and transfers the stored energy back to the actuator when the actuator is released to move the actuator distally. In another embodiment, the actuator return spring 86 acts directly on the swivel links 110 and 112.
[00116] In one embodiment, the counter 52 includes a rotating disk 94 having gear teeth 96. The counter 52 includes a window 98 that is formed in the upper end 50, the handle 36 to provide visual access to a top surface of the rotating disk 94. The counter desirably includes a locking pin 100 and a locking pin spring (not shown) in contact with the locking pin. The applicator instrument desirably includes a locking pin cover 102 that partially covers a portion of the locking pin 100.
[00117] In one embodiment, the counter 52 has a locking counter 104 that is hingedly secured to the cable 36 via a locking counter pivot 106. The counter 52 also includes a locking counter spring 108 which normally , biases the interlock counter 104 to pivot toward the distal end of the applicator instrument 30. The interlock counter 104 is adapted to switch back and forth around pivot 106 during each firing cycle.
[00118] Figure 4B shows the applicator instrument 30 of Figure 4A with the actuator being transparent to clearly show a first swivel link 110 and a second swivel link 112 coupled to the actuator 38. In one embodiment, the first swivel link 110 is disposed on the interior of actuator 38 and is pivotally secured to actuator 38 by a first pivot 114. First swivel 110 has an upper end 116 which has upper gear teeth 118 which intermesh with a rack 120 located within the upper end of the handle 36. The first swivel 110 has a lower end 122 which has lower gear teeth 124. The actuator 38 includes a first internal slot 125 formed therein that is adapted to receive the first pivot 114 during assembly. Pivot 114 passes through a "push fit" feature of the first internal slot 125 during assembly. This ensures that the two swivel links 110, 112 are hingedly fastened.
[00119] The second swivel link 112 is pivotally secured to the actuator 38 via a second pivot 126. The second swivel 112 has an upper end 128 with upper gear teeth 130 which intermesh with the lower gear teeth 124 of the first swivel link 110. The first and second swivel links 110, 112 are coupled together via opposing gear teeth 124, 130, which ensures that the first and second swivel links 110, 112 rotate at the same rate. The second swivel connection 112 has a lower end 132 which has bottom teeth 134 which intermingle with opposing teeth molded into a second rack disposed above the housing 35 (not shown). Actuator 38 includes a second molded slot 136 that receives second pivot 126 during assembly. Pivot 114 passes through an internal slot 136 "push fit" feature during assembly. This ensures that the two swivel links 110, 112 are hingedly fastened. Furthermore, the swivel gear links 110, 112 have matched offset teeth 124, 130 to allow synchronized timing between two gears produced from the same mold.
[00120] The configuration of the first and second swivel links 110, 112 within the cable 36 and the pivotal connection of the first and second swivel links with the actuator 38 enables the actuator 38 to move along a single linear path, namely, the A3-A3 axis. The linear movement of the trigger 38 allows the force and distance required to tighten the trigger to remain consistent regardless of where the tightening forces are concentrated along the length of the trigger, which minimizes the likelihood of trigger binding.
[00121] Referring to Figure 4C, in one embodiment, the actuator return spring 86 normally urges the actuator 38 to move distally. The actuator return spring 86 has the first arm 88 secured within the molded portion of the handle 36 and the second arm 90 which engages a tab 92 on a proximal face of the actuator 38. As the actuator is pulled toward the proximal end 32 of the applicator instrument 30, the tab 92 urges the second arm 90 of the actuator return spring 86 to move proximally to store energy in the spring 86. After the actuator 38 is pulled into its most proximal position to dispense a surgical fastener , the actuator 38 can be released whereby the second arm 90 of the spring 86 urges the actuator 38 to move distally to return the actuator to the original position shown in Figure 4C.
[00122] In one embodiment, housing 35 and cable 36 include left and right halves that are assembled together. In one embodiment, the cable halves are assembled together with snap-on pins. In one embodiment, the actuator 38 is captured between the left and right halves of the housing and the cable. In one embodiment, the actuator 38 travels in the distal and proximal directions along a linear path that has an overall length of about 2.29 centimeters (about 0.9 inch). The applicator instrument preferably has physical stops at the proximal and distal ends of the linear path of travel of the actuator rack 76 that interrupt the proximal and distal movement of the actuator along linear path A3-A3. In one embodiment, the left and right halves are desirably made from a polymer such as glass-reinforced polycarbonate. In one embodiment, the driver is made from a polymeric material, such as a glass-reinforced polycarbonate.
[00123] In one embodiment, the housing 35 contains a firing system having the firing spring, a spring block and a firing rod, as disclosed in Assigned Patent Application Publication No. US 2010/0292715 , US 2010/0292712, US 2010/0292710, US 2010/0292713 and US 2011/079627, the descriptions of which are incorporated herein by reference. Spring block 72 and trigger rod 74 are adapted to move in distal and proximal directions along longitudinal axis A1-A1.
[00124] Referring to Figure 4C, in one embodiment, the actuator 38 is connected to the actuator rack 76 by means of a tab extending from the actuator 38 that protrudes between two protrusions in the actuator rack 76. In a In this embodiment, the fit tolerance between the actuator tab and the actuator rack protrusions is precise and close to allow for minimal free performance between the driver and the actuator rack. The existence of two separate actuator parts allows a stronger material (eg metal such as stainless steel) to be used for the actuator rack 76. In addition, the separation of the actuator tab from the actuator rack ensures that any rotational forces exerted by the user on the driver 38 are limited to the driver and are not exerted on the driver rack 76. In one embodiment, the driver rack 76 is captured between the left and right cable halves and is in contact with the drive gear 78. The drive rack 76 is adapted to slide along an axis that is parallel to the axis of movement A3-A3 of the drive 38. In one embodiment, the drive rack displacement is limited to about 2. 29 centimeters (about 0.9 inch), with both the distal stop features and the proximal stop features being located inside the left cable half. In one embodiment, the drive rack has drive rack gear teeth provided on the underside thereof. The drive gear 78 has two sets of gear teeth of different radii to provide a two-stage gear and the drive rack gear teeth engage the smallest of the gears of the drive gear 78.
[00125] The swivel links 110, 112 pivot around respective first and second pivots 114, 126 which protrude into opposing through holes in the actuator 38. The swivel links 110, 112 are preferably captured and restrained at its rotary movement by trigger features. The swivel links are coupled to one another through matched opposing gear teeth 124, 130 positioned near the middle of the hand grip area of the actuator 38. In one embodiment, such mating gear teeth 124, 130 have a face width of approximately 0.25 centimeters (approximately 0.1 inch) and a pitch diameter of about 2.22 centimeters (approximately 0.875 inch). Such dimensions and features allow the first and second swivel links 110, 112 to mirror each other during movement. The first and second swivel links 110, 112 also have external gear teeth 118, 134, respectively, with a face of about 0.25 centimeters (about 0.1 inch) and a pitch diameter of about 2, 65 centimeters (about 1,042 inches). Such outer gear teeth 118, 134 are desirably mated with corresponding opposite rack gear features formed on the cable halves, one on the right cable half and one on the left cable half.
[00126] The engagement and timing of the gear features for the first and second swivel links 110, 112 enable the actuator 38 to move in a linear fashion along the axis A3-A3 and also prevent the actuator from rotating around a center point when clamping forces are applied unevenly across the clamping area of the actuator hand. The drive mechanism's ability to convert linear drive motion to rotary motion through drive gear 78 minimizes friction and any risk of binding. In one embodiment, the first and second swivel links 110, 112 are preferably made from a polymer, such as a glass-reinforced polycarbonate.
[00127] In one embodiment, the drive gear 78 desirably connects the drive rack 76 to the hook 82 of the firing system 70. The hook 82 and the firing system 70 are preferably similar to those disclosed in the firing system shooting of the Patent Application Publications assigned to the same applicant no. US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713 and US 2011/079627, the descriptions of which are incorporated herein by reference. The drive gear preferably transfers drive movement along axis A3-A3 to hook movement along axis A1-A1. In one embodiment, such two geometric axes differ by about 15° such that proximal movement of driver 38 along axis A3-A3 results in distal movement of hook 82 along axis A1-A1. In one embodiment, drive gear 78 has a gear ratio that results in 2.29 centimeters (0.9 inches) of drive displacement so as to produce 3.81 centimeters (1.5 inches) of hook displacement. In one embodiment, the two-stage drive gear 78 is preferably produced from a metal, such as stainless steel. The gear can be mounted on a metal pin to rotate around the metal pin. In one embodiment, the pin around which the drive gear 78 rotates is located and constrained between the left and right cable halves.
[00128] In one embodiment, the actuator return spring 86 is positioned within the cable such that the coils of the spring 86 are captured along a column that extends between the left and right cable halves. A first arm of the actuator return spring is secured relative to the cable halves and is captured within a pocket, preferably formed within the left cable half. A second arm or movable arm of the actuator return spring, desirably has an L-bend at its distal end and is tensioned against the actuator so that the actuator is biased towards a distal forward position. The actuator return spring 86 desirably exerts a force on the actuator that is about 8.9 Newton (about two pounds) preloaded and 40.03 Newton (nine pounds) under final load. In a preferred embodiment, the actuator return spring 86 provides a force of about 22.2 Newton (about five pounds) preloaded and 31.1 Newton (seven pounds) with the final load. In one embodiment, the actuator return spring 86 is desirably produced from metal, such as stainless steel.
[00129] Referring to Figures 5A to 5C, in one embodiment, the applicator instrument 30 includes the counter 52 having a rotating disk 94 and gear teeth 96 projecting downwardly from the rotating disk 94. A window 98 is formed at the upper end 50 of the handle 36 to provide visual access to the top surface of the spinning disk 94. The counter 52 includes a locking pin 100 that is adapted to descend along the axis V1-V1 (Figure 5A) when a slot is formed. on the turntable 94 has been rotated to align with an extension arm 101 of the lock pin 100. The counter 52 also includes a lock pin cover 102 that extends along a portion of the lock pin 100.
[00130] In one embodiment, the counter 52 has an interlock counter 104 that is hingedly secured to the left cable half via a pivot point 106. A interlock counter spring 108 normally drives the upper end of the counter. lock 104 for pivoting toward the distal end of the applicator instrument 30. The lock counter 104 switches back and forth during a firing cycle to rotate the rotating disk 94 a position to indicate that a surgical fastener has been fired. The swivel disk 94 is adapted to be rotated an additional position each time another surgical fastener is dispensed. In one embodiment, the lockout counter 104 has a flexible cantilever beam 115 that is engaged by the first swivel link 110 to switch the lockout counter 104 from the forward position to the rear position.
[00131] Referring to Figure 5B, the interlock counter 104 has a proximal tooth 120 and a distal tooth 122 which are adapted to engage gear teeth 96 which project downwardly from the rotating disk 94. In one embodiment, as per locking counter 104 pivots distally, proximal tooth 122 engages gear teeth 96 to rotate disc 94 one half of a position in the direction indicated R1. In one embodiment, when the actuator 38 is fully tightened, the actuator contacts the lock counter 104 to pivot the upper end of the lock counter in a proximal direction so that the distal tooth 122 engages the gear 96. actuator 38 is released and moves distally, counter-lock spring 108 pivots the upper end of counter-lock 104 in a distal direction so that proximal tooth 120 engages gear teeth 96 to rotate disc 94 to half a position in the R1 direction. In one embodiment, the swivel disk 94 is rotated into one position (indicating that a surgical fastener has been fired) each time the upper end of the locking counter 104 pivots proximally and then distally to the starting position shown in Figure 5B. In one embodiment, when the last surgical fastener has been dispensed, the locking pin 100 falls out to lock the driver 38 in a proximal position.
[00132] Figure 5C shows the window 98 formed in the upper end 50 of the handle 36. The window 98 provides visual access to the top surface of the spinning disk 94 to provide an indication of how many surgical fasteners have been fired and/or how many surgical fasteners remain in the applicator instrument 30.
[00133] In one embodiment, the locking and counter assembly disclosed herein is generally similar to the structure disclosed in Patent Application Publication under Nos. US 2010/0292715, US 2010/0292712, US 2010/0292710 , US 2010/0292713, and US 2011/079627 assigned to the same assignee, the descriptions of which are incorporated herein by reference.
[00134] In one embodiment, the locking pin spring and the locking counter spring are desirably produced from a metal such as stainless steel. The components of counter 52 are preferably made from polymer materials such as acetal, alkyl benzene sulfonate, glass reinforced acetal, or combinations thereof.
[00135] Figures 6A and 6A-1 show the applicator instrument 30 including the position of the trigger 38 and the counter 52 at the beginning of a firing cycle, which is also referred to herein as the first stage of the firing cycle. In Figure 6A, the second arm 90 of the actuator return spring 86 rests against the tab 92 of the actuator 38 to provide a preload force that biases the actuator distally. Actuator 38 is constrained to be moved along the linear path of axis A3-A3 by pivots 114, 126 and actuator rack 76. In turn, actuator rack 76 is constrained for distal movement by distal stop 77 formed in the left cable half. Referring to Figure 6A-1, at the beginning of the firing cycle, the locking counter 104 of the counter 52 is distally pivoted by the locking counter spring 108. The locking pin 100 is held by the rotating disk 94.
[00136] Figures 6B and 6B-1 show the applicator instrument 30 during a second stage of a firing cycle. Actuator 38 has been partially tightened so that actuator 38 and actuator rack 76 move proximally about 1.23 centimeters (about 0.486 inches) from the initial position shown in Figures 6A and 6A-1. The first swivel 110 made initial contact with the cut-off beam 115 of the locking counter 104. The second arm 90 of the actuator return spring 86 flexed proximally to increase the spring force against the actuator 38. drive 76 along axis A3-A3 rotates drive gear 78 in a counter clockwise direction, which in turn advances fork 82 distally along axis A1-A1 to advance the trigger rod and store energy in the firing spring of the firing system, as disclosed in Patent Application Publication under Nos. US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713, and US 2011/079627 assigned to the same applicant, whose descriptions are hereby incorporated by reference herein.
[00137] Figures 6C and 6C-1 show the applicator instrument 30 during a third stage of the firing cycle. Trigger 38 and trigger rack 76 moved proximally about 1.36 centimeters (about 0.537 inches) from the start of the firing cycle (see Figure 6A) due to the continued tightening of trigger 38. An additional proximal movement of the drive rack 76 along axis A3-A3 results in additional rotation of drive gear 78, which causes corresponding distal movement of yoke 82 along axis A1-A1. As the fork 82 moves distally, energy can be stored in a trigger spring located within the spring block 72. The second arm 90 of the actuator return spring 86 has been further flexed proximally to increase the return force against the driver 38. During the third stage, the first swivel link 110 deflects the stop beam 115 of the lock counter 104 proximally by about 0.07 centimeters (about 0.029 inches). The force applied to the interruption beam 115 by the first swivel link 110 is in balance with the counter force provided by the counter locking spring 108 so that the locking counter 104 is "ready" to switch from the forward position shown in Figure 6C-1 to a rear position.
[00138] Figures 6D and 6D-1 show the applicator instrument 30 during a fourth stage of the firing cycle. Actuator 38 and actuator rack 76 moved proximally about 1.82 centimeters (about 0.716 inches) due to the continuous tightening of actuator 38. The second arm 90 of actuator return spring 86 flexed further proximally to increase the return force against drive 38. Linear movement of drive rack 76 in a proximal direction along axis A3-A3 results in clockwise rotation of the continuous counter of drive gear 78, which causes sliding motion. corresponding distal end of fork 82 along axis A1-A1 toward the distal end of applicator instrument 30, and store additional energy in trigger spring 75 within spring block 72. First swivel link 110 deflected stop beam 115 from 104 locking counter by about 0.11 centimeter (about 0.044 inch). At that point, the backward force applied to the interruption beam 115 of the counter-lock 104 has overcome the counter force provided by the counter-lock spring 108 so that the upper end of the counter-lock 104 is inclined proximally in the rear position. When the locking counter 104 switches to the rear position, the distal tooth 122 engages the gear 96 to rotate the rotating disk 94 by means of the gear tooth 96.
[00139] Figures 6E and 6E-1 show the applicator instrument 30 during a fifth stage of the firing cycle. Trigger 38 and trigger rack 76 moved proximally about 2.29 centimeters (about 0.900 inches) from the start of the firing cycle (Figure 6A) due to the continuous tightening of the trigger. Proximal sliding movement of driver rack 76 is interrupted by a proximal stop 85 molded into handle 36. At this stage, driver rack 76 has contacted proximal stop 85 and proximal movement of driver 38 and driver rack 76 It's complete. The second arm 90 of the actuator return spring 86 flexed further to increase the return force against the actuator 38 to a peak value. Proximal movement of drive rack 76 along axis A3-A3 has resulted in continuous rotation of drive gear 78, which in turn causes distal movement of fork 82 along axis A1-A1 as described in the Publication of Patent Application under Nos. US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713, and US 2011/079627 assigned to the same applicant, the descriptions of which are incorporated herein by reference herein. Before the end of stage five, the trigger rod is released and energy in the trigger spring is transferred to the trigger rod to move the trigger rod distally for surgical fastener dispensing. The first swivel link 110 deflected the stop beam 115 from the counter lock 104 by about 0.3 centimeter (about 0.115 inch). The upper end of the interlock counter 104 remains switched to the rear position through which the distal tooth 122 contacts the gear 96.
[00140] During the fifth stage of the firing cycle shown in Figure 6E, the driver 38 was tightened completely and the drive gear 78 advanced the proximal end of the fork 82 distally beyond the ratchet pawl 84. With the proximal end of the fork 82 without the ratchet pawl 84, the ratchet pawl can reset so that the fork 82 would be free to slide once more towards the proximal end 32 of the applicator instrument 30 to initiate another firing cycle.
[00141] In one embodiment, when the actuator 38 is released, the energy stored in the actuator return spring 86 is transferred to the actuator 38 to urge the actuator to move in a distal direction along axis A3-A3 to return the trigger to the initial trigger position shown in Figure 6A. The corresponding reset actions of the fork 82 and firing system 70 are similar to the movements disclosed in Patent Application Publication under US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713, and US 2011 /079627 assigned to the same assignee, the descriptions of which are incorporated herein by reference herein.
[00142] When the actuator 38 is released, the first swivel 110 moves distally to remove a compressive force on the stop beam 115 of the locking counter 104. The locking return spring 108 preferably switches the upper end of the lock counter 104 in a distal direction and back to the forward position shown in Figure 6A-1. Switching from one position of the latch counter 104 to another will result in incremental rotation of the spinning disk 94 of the counter 52.
[00143] In one embodiment, counter 52 locks the trigger in a proximal position (Figure 6E) when the last surgical fastener has been fired. Referring to Figure 7A, In one embodiment, the actuator 38 has a hook 140 that projects from a proximal end thereof. Hook 140 moves simultaneously with actuator 38 as the actuator moves in the proximal and distal directions along axis A3-A3. In Figure 7A, actuator hook 140 is proximal to locking pin hook 142.
[00144] Locking pin 100 has a locking pin hook 142 which is adapted to engage trigger hook 140 when the last surgical fastener has been fired. In Figure 7A, a radial groove provided in the turntable 94 is aligned with the arm 101 of the locking pin 100. As a result, the locking pin 100 is free to fall towards the bottom of the applicator instrument along the axis V1- V1. The locking pin 100 is urged downwardly by a locking pin spring 150. The interrupt beam 115 of the locking counter 104 ensures that the locking pin 100 falls out before the trigger hook 140 passes beyond the locking pin hook 142. As trigger 38 is pulled proximally, a ramp feature on the front edge of trigger hook 140 deflects locking pin 100 upward along axis V1-V1.
[00145] Referring to Figure 7B, as the actuator continues to travel proximally, the locking pin 100 eventually falls back so that the hook 142 of the locking pin 100 is distal to the hook 140 connected with the actuator 38. Referring to Figure 7C, when the actuator 38 is released, the actuator return spring 86 urges the actuator distally until the locking pin hook 142 engages the actuator hook 140 to stop further distal movement of the actuator 38 along the axis A3-A3. As a result, the actuator 38 is locked in the position shown in Figure 7C and the applicator instrument 30 can no longer be used for dispensing surgical fasteners.
[00146] Referring to Figure 8, in one embodiment, the firing system preferably includes a advance element 160 having advance element tabs 162 and an anti-support member 164 having anti-support tabs 166. During a firing cycle As a complete part of the dispensing instrument disclosed herein, the advancing member 160 cycles distally and proximally to advance the surgical fasteners 60 by a segment toward the distal end of the dispensing instrument. In one embodiment, when the actuator 38 (Figure 1) is depressed, the advancing element 160 moves distally (to the left in Figure 8) in which the advancing element tab 162 abuts a rear of the surgical fastener 60 for advancing. the surgical clamp in a distal direction. When the trigger is released and moves distally to return to the home position, the advancing element 160 moves in a proximal direction towards the proximal end of the dispensing instrument. The anti-support tabs 166 prevent the surgical fasteners from moving proximally as the adjunct moves proximally. Advance element 160 moves distally each time the trigger is depressed and moves proximally when the trigger is released to return to a home position at the beginning of a trigger cycle. Anti-support member 164 remains stationary during firing cycles. Anti-support tabs 166 preferably contact the surgical fasteners to prevent the surgical fasteners from moving proximally within the elongated shaft 40 (Figure 1) of the dispensing instrument. Such a system is also described in Patent Application Publication US 2010/0292715, US 2010/0292712, US 2010/0292710, US 2010/0292713, and US 2011/079627 assigned to the same applicant, the descriptions of which are incorporated herein by reference in this document.
[00147] Referring to Figure 9, In one embodiment, the applicator instrument 30 includes the elongated shaft 30, which is preferably angled or curved, and a guide element 168 that extends across the shaft. Guide element 168 may be a molded part that includes AC lead element channel channel and an FC trigger channel channel. In one embodiment, the guide element 168 preferably has a first half 170A and a second half 170B that are mounted together. In one embodiment, the anti-support member 164, the advance element 160, and the surgical fasteners 60 are positioned within the advance element channel AC of the first half 170A of the guide element, and the trigger rod 74 and an insertion fork are positioned. within the FC firing channel of the first half 170A of the guide element. The second half 170B of the guide element is assembled with the first half 170A to form the assembled guide channel 168.
[00148] In one embodiment, the surgical fasteners 60 advance through the AC advance element channel while lying within a laterally extending HP horizontal plane that is perpendicular to a VP vertical plane extending across the top and bottom of the instrument applicator. The orientation of the surgical fasteners within the guide element 168 enables the surgeon to control and/or be aware of the orientation of the surgical fasteners as they are dispensed from the axis of the dispensing instrument.
[00149] In one embodiment, the advance element 160 advances the surgical fastener 60 distally through the advance element channel AC and toward the distal end of the shaft 40. When the surgical fastener 60 becomes the front surgical fastener at the distal end of the shaft 40, a preparation sheet affixed to the distal end of the anti-support member 164 transfers the front surgical fastener 60 from the advance element channel AC to the firing channel FC to be aligned with the insertion fork at the distal end of the firing rod 74.
[00150] Figure 10A shows the distal end of the first half 170A of the guide element 168. The second half 170B (Figure 9) of the guide element has been removed to more clearly show the lead element channel AC and the trigger channel FC of guide element 168. In one embodiment, twenty surgical fasteners 60A, 60B, 60C,...60T are positioned between advancing element 160 and anti-support member 164. Advancing element 160 cycles continuously to advance surgical fasteners 60A , 60B, 60C,... 60T towards the distal end of the AC advance element channel. The distal end of the anti-support member 164 includes a preparation sheet 174 that moves the front surgical fastener 60A to the firing channel FC into alignment with the insertion fork 176 at the distal end of the firing rod 74.
[00151] Referring to Figures 9 and 10B, in one embodiment, the applicator instrument 30 includes a priming spring 178, such as a yarn priming spring that is adapted to urge the priming sheet 174 to move into alignment. with insertion fork 176. In one embodiment, wire preparation spring 174 is U-shaped and has a closed distal end 180 that passes through a window 182 formed in the distal end of guide element 168. The distal end The closed 180 of the yarn preparation spring 178 preferably engages the preparation sheet 174 to urge the preparation sheet to move into alignment with the insertion fork 176. As a result, after the front surgical fastener 60A has been advanced into the preparation sheet 174 by the advancing element 160, and the advancing element is retracted, the wire preparation spring 178 transfers the front surgical fastener 60A from the advancing element channel AC to the firing channel FC to f This is aligned with insertion fork 176 at the distal end of trigger rod 74. The trigger rod and insertion fork can then be extended to guide the tips of the insertion fork to the front surgical fastener 60A.
[00152] Referring to Figures 11A and 11B, in one embodiment, the wire preparation spring 178 has a proximal end 184 that is secured to the guide element 168 and a closed distal end 180 that passes through the window 182 formed therethrough. of the guide element adjacent to the distal end of the guide element.
[00153] Referring to Figure 11B, the wire preparation spring 178 includes a first arm 186 which is secured to the first half 170A of the guide element 168 and a second arm 188 which is secured to the second half 170B of the guide element 168. The closed distal end 180 of the yarn preparation spring 178 passes through the window 182 (Figure 11A) formed adjacent the distal end of the guide element 168.
[00154] Figures 12A through 12E show the operation of the wire preparation spring 178 to urge the preparation sheet into alignment with the insertion fork at the distal end of the firing rod. Referring to Figure 12A, insertion fork 176 and firing rod 74 are in a retracted position at the beginning of a firing cycle. A front surgical clamp 60A was advanced towards a distal end 34 of the applicator instrument. Distal end 180 of wire preparation spring 178 deflects preparation sheet 174 into firing channel FC of guide element 168.
[00155] Referring to Figure 12B, the actuator is pulled towards the proximal end of the device, which, in turn, moves the advance element 160 towards the distal end 34 of the applicator instrument, so that the element tab advancer 162 pushes forward surgical fastener 60A distally to load the front surgical fastener into the preparation sheet at the distal end of the anti-support member 164. The distal end of the extended advancer element 160 flexes the preparation sheet and wire preparation spring 178 upward and away from the FC trigger channel.
[00156] Referring to Figure 12C, during a later stage of the firing cycle, the advance element 160 is retracted after which the distal end 180 of the yarn preparation spring 178 urges the preparation sheet 174 down into the firing channel. FC trigger for aligning the front surgical fastener 60A with the insertion fork 176. The priming sheet 174, which has been deflected downwardly in the firing channel, retains the front surgical fastener 60A in position to be engaged by the insertion fork 176.
[00157] Figure 12D shows a later stage of the firing cycle during which the insertion fork 176 and the firing rod 74 move distally in which the tips of the insertion fork 176 engage the front surgical fastener 60A. As the insertion fork moves distally, the insertion fork 176 deflects the priming sheet 174 and the wire priming spring 178 out of the trigger channel FC and into the lead element channel AC.
[00158] Figure 12E shows the trigger rod 74 and insertion fork 176 fully extended in a more distal position for dispensing the front surgical clamp 60A from the distal end of the delivery instrument. The fully extended insertion fork 176 and firing rod 74 continue to deflect the priming sheet 174 and the wire priming spring 178 into the lead element channel AC.
[00159] Referring to Figures 13A to 13C, in one embodiment, a cover 190 is secured to the distal end of the outer shaft 40. In one embodiment, the cover 190 is affixed to the distal end of the outer shaft such that the cover 190 do not rotate or translate with respect to axle 40. In one embodiment, axle 40 has an outer diameter OD1 of about 6 to 12 mm and more preferably about 8 mm. Cover 190 preferably has a smooth, curved, contoured outer surface that does not have sharp edges so that the cover does not capture or damage the mesh cloth of a mesh implant.
[00160] In one embodiment, the cover 190 has a lower distal edge 192 that extends along the bottom of the cover and a dispensing window 194 for dispensing a surgical fastener. In one embodiment, the cover 190 is adapted for insertion into the pocket of an open skirt mesh that has a top mesh piece and a bottom mesh piece joined at a peripheral junction, through which the lower distal edge 192 is advanced. in contact with the inside of the joint and the cover can be easily slid along the inside of the joint between the top and bottom layers without trapping or damaging the mesh material. The lower distal edge 192 is adapted to lie on top of the bottom mesh piece of an open skirt mesh to ensure that the dispensing window 194 of the cover 190 is a defined distance above the mesh-skirted junction.
[00161] In one embodiment, the delivery window 194 has an upper end 196 and a lower end 198. The lower end 198 of the delivery window 194 is preferably separated from the lower distal edge 192 to ensure that the surgical fasteners are dispensed above the mesh joint with open skirt and in the top mesh piece of the implant. Referring to Figure 13B, in one embodiment, the lower distal edge 192 includes a center section 200 having a length L1 of about 6 to 10 mm which generally corresponds to the outer diameter OD1 of shaft 40 and first and second extensions. 202, 204 extending beyond the outer diameter OD1 of shaft 40 by about 2-3 mm. With the addition of the first and second extensions 202, 204, the lower distal edge 192 has an overall length L2 of about 10 to 20 mm which is greater than the outer diameter OD1 of axis 40. In one embodiment, the first and second extensions 202, 204 have bottom surfaces that are convex and that extend laterally from the bottom surface of the lower distal edge, and first and second top surfaces 206, 208 that are concave and that extend toward an upper end 210 of the cover 190. The first and second extensions 202, 204 preferably distribute forces across a wider mesh area, as a bottom mesh piece of an open skirt mesh, such as when a physician applies advancing forces to the cable. of applicator instrument and back pressure on the opposite tissue.
[00162] In one embodiment, the bonnet has a proximal end 212 that is secured to the distal end of shaft 40 and transitions into a cylindrical shape to match the outer diameter OD1 of shaft 40. In one embodiment, the proximal end 212 of the bonnet 190 has an outer diameter OD2 of about 6 to 12 mm and more preferably about 8 mm which generally corresponds and conforms to the outer diameter OD1 of shaft 40.
[00163] Referring to Figures 13A and 13C, in one embodiment, the cannula cap 190 has a distal face 214 that slopes upwardly and proximally from the lower distal edge 192 to the upper end 210 of the cannula cap 190 When the cover 190 is inserted into the pocket of an open skirt mesh that has a peripheral seam, the lower distal edge 192 is preferably abutted against the bottom mesh piece of the open skirt mesh and advanced toward an interior. from a joint until the slanted distal face 214 engages the top mesh piece of the open skirt mesh to bend the top mesh piece of the skirt away from the bottom mesh adjacent the interior of the joint. Delivery window 194 is desirably spaced from the lower distal edge 192 to ensure that surgical fasteners 60 dispensed through the delivery window pass through the top mesh piece and not the peripheral junction or the bottom mesh piece of the mesh. with open skirt. The first and second extensions 202, 204 further ensure that the cover orients the device with respect to the mesh joint so that surgical fasteners are distributed on the top mesh piece.
[00164] In one embodiment, cover 190 is contoured to ensure that there are no sharp edges on the distal end of an applicator instrument that could catch or damage the mesh cloth of an implant. The contoured cover ensures that a physician can slide a distal end of a delivery instrument along the interior of an open skirt mesh joint when positioning or repositioning the distal end of the delivery instrument for initial and subsequent positioning of surgical fasteners. .
[00165] Referring to Figures 14A to 14C, in one embodiment, an applicator instrument 30 having the elongated shaft 40 and the cover 190 is used to secure an open skirt mesh 216 to the soft tissue. In one embodiment, the open skirt mesh 216 has a bottom mesh piece 218, a top mesh piece 220 with a central opening 222, and a peripheral seam 224 joining the outer edges of the bottom mesh piece 218 and the top mesh piece 220 to define a pocket 226 that extends between the top and bottom mesh pieces.
[00166] In one embodiment, the cover 190 and the distal end of the shaft 40 of an applicator instrument 30 are inserted through the central opening 222 of the top mesh piece 220 and advanced into the pocket 226 and toward the mesh peripheral junction 224. with open skirt 216. The lower distal edge 192 (Figure 14B) of the cover 190 abuts the backing piece 218 and advanced towards the peripheral junction 224, through which the lower distal edge 192 and the slanted distal face 214 ( Figure 14B) of the cover 190 bend the top mesh piece 220 away from the bottom mesh piece 218 at the peripheral junction 216. The lower distal edge 192 of the cover 190 spaces the dispensing window 194 of the cover 190 above the junction 224 and in alignment with the top mesh piece 220 so that the surgical fastener 60 (Figures 3 and 12E) passes through the top mesh piece 220 and does not pass through the seam 224 or the bottom mesh piece 218.
[00167] In one embodiment, a patient with a ventral hernia is prepared for an open hernia repair procedure. The area of skin surrounding the hernia is rubbed with a conventional antimicrobial solution such as betadine. The patient receives conventional general anesthesia in a conventional manner by induction and inhalation. In one modality, the surgeon begins the surgical procedure by making an incision in the skin and subcutaneous tissue overlying the hernia. In case intraperitoneal mesh placement is planned, the hernia sac is opened. The edges of the healthy fascia around the defect are examined and any connections between the viscera and the abdominal wall are divided to create a clear space for mesh fixation.
[00168] At this stage of the surgical procedure, the surgeon prepares a surgical mesh. The surgical mesh may be hernia mesh with skirt having a top fixation layer, or any suitable mesh such as the mesh disclosed in US Patent Application No. 13/443,347, filed April 10, 2012, entitled "SINGLE PLANE TISSUE REPAIR PATCH" assigned to the same applicant, the description of which is incorporated herein by reference. In one embodiment, the bottom repair layer of a skirted hernia mesh can be called the bottom mesh piece and the top fastening layer can be called the top mesh piece. The outer peripheries of the respective bottom repair layer and the top fixation layer are preferably joined at a peripheral joint that extends around the outer perimeter of the skirted hernia mesh. In one embodiment, the top anchor layer desirably has an opening in the center. In one modality, four sutures can be placed at the four cardinal points of the mesh (ie, North, South, East, and West).
[00169] In one modality, the mesh is inserted through the skin incision and through the fascia defect into the preperitoneal space. The surgeon desirably positions the mesh in the abdominal cavity by hand. The mesh is oriented so that the bottom repair layer faces the patient's abdominal contents and the top fixation layer faces the abdominal wall. Sutures can be secured trans-abdominally using suture passers as desired.
[00170] In one embodiment, an applicator instrument is used for dispensing surgical fasteners for mesh fixation. In one embodiment, the dispensing instrument is desirably oriented so that the handle and driver are above the body of the dispensing instrument to be outside the patient's abdomen. The elongated outer shaft of the applicator instrument is preferably inserted through the central opening formed in the top anchor layer so that the distal end of the shaft is disposed between the top anchor layer and the bottom repair layer. In one embodiment, the outer axis of the applicator instrument is curved and the curvature of the outer axis is pointed up and away from the patient's posterior end (ie, toward the top fixation layer). With the applicator instrument covering between the top fixation layer and the bottom repair layer, the covering is advanced towards the outer periphery of the mesh implant until the covering reaches the peripheral junction of the mesh. In one modality, although the dispensing instrument is held with the surgeon's first hand, the second hand can be used to apply external back pressure to the skin, opposite the covering at the distal end of the dispensing instrument. The cover has an inferior distal edge that contacts the fundus repair layer and the interior of the peripheral junction. The cover preferably has a distal face that slopes up and away from the lower distal edge. When the lower distal edge of the cover is advanced into the joint, the sloping distal face of the cover bends the top fixation layer away from the bottom repair layer. The lower distal edge desirably functions as a spacer that ensures that the surgical fastener dispensing window in the cover is above the peripheral junction of the mesh implant and is aligned with the top fixation layer.
[00171] In one embodiment, with the cover dispensing window aligned with the top securing layer, the trigger is tightened with a single stroke action to position a surgical fastener or tie the cover dispensing window to secure the layer of top fixation to the abdominal wall. The trigger returns to a home position for a trigger cycle. The applicator instrument is preferably repositioned to another point along the mesh junction and another surgical fastener is dispensed. The process is repeated until the entire perimeter of the mesh is secured, with the surgical fasteners desirably spaced about 1 to 2 mm around the periphery of the mesh implant. In one embodiment, a second series of straps can optionally be applied closer to the center of the mesh in what is called a double crown technique.
[00172] In one modality, after the 20 surgical fasteners have been dispensed, the applicator instrument will lock with the trigger closed. If necessary, a new applicator instrument can be used to complete the remainder of the repair procedure. After a desired number of surgical fasteners have been placed, the delivery instrument is removed from the patient. The hernia defect can be closed first if desired. The skin incision can be closed using proper closure and suturing techniques, and the incision is bandaged properly. After the repair procedure is complete, the patient can be moved to a recovery room.
[00173] Referring to Figures 15A to 15C, in one embodiment, an applicator instrument 330 includes a handle 336 that has a driver 338 and an axle 340 that extends from a distal end of the handle 336. The cover 390 is desirably attached to a distal end of the shaft. Cover 390 preferably includes a dispensing window 394 for dispensing surgical fasteners from the distal end of applicator instrument 330. In one embodiment, cover 390 has a lower distal edge 392 and first and second side extensions 402. 404 extending laterally from the lower distal edge 392. The first and second lateral extensions 402, 404 preferably extend beyond the outer diameter of the outer shaft 340 to define a length that is greater than the outer diameter of the shaft.
[00174] Referring to Figure 16, in one embodiment, the distal end of the applicator instrument 330 is adapted to be inserted into a pocket of an open skirt mesh 416. In one embodiment, the open skirt mesh 416, preferably includes a bottom mesh piece 418 and a top mesh piece 420 opposite the bottom mesh piece 418. The outer edges of the bottom and top mesh pieces 418, 420 are joined at a peripheral joint 422 When the cover 390 is inserted into the mesh skirt pocket 416, the lower distal edge 392 and the first and second side extensions 402, 404 preferably engage the inner surface of the bottom mesh piece 418 to flatten the bottom piece. bottom mesh proximate cover 390. Lower distal edge 392 preferably has a thickness that spaces delivery port 394 above junction 422 to ensure that surgical fasteners are dispensed through top mesh piece 420 and not through. junction 42 4 or the background mesh piece 418.
[00175] Referring to Figure 17, in one embodiment, an applicator instrument 430 includes a handle 436 and an elongated shaft 440 that extends distally from the handle 436. The applicator instrument 430 includes a rotatable member 445 secured to the outer shaft. 440. A cover 490 is secured to a distal end of the outer shaft 440. The cover 490 may include one or more of the features disclosed in the embodiments shown in Figures 13A to 13C or Figures 15B to 15C. In one embodiment, the rotatable element 445 can be engaged to rotate the elongated axis 440 about its longitudinal axis. Cover 490 preferably rotates simultaneously with shaft 440.
[00176] Referring to Figures 18A through 18C, in one embodiment, an applicator instrument desirably includes a cap 490 secured to a more distal end of an outer shaft. Cover 490 includes a lower distal edge 492 that has a concave bottom surface 495. Cover 490 includes first and second extensions 502, 504 that extend laterally from lower distal edge 492. Cover 490 preferably includes a dispensing window 494 which is aligned with the firing chamber of the applicator instrument for dispensing surgical fasteners through the dispensing window.
[00177] In one embodiment, the distal lower end 492 of the cap 490 has a thickness that spaces the distribution window 494 from the concave bottom surface 495 of the distal lower edge. After the lower distal edge 492 is abutted within the peripheral junction of a mesh implant, the thickness of the lower distal edge ensures that the distribution window 494 of the cover 490 is spaced above and away from the peripheral junction so that the surgical fasteners they are dispensed inside the top mesh piece of a skirted mesh, not inside the joint or bottom mesh piece.
[00178] In one embodiment, when the cover 490 is inserted into the pocket of a mesh with skirt, the lower distal edge 492 is advanced towards the peripheral junction of the mesh with skirt with the concave bottom surface 495 facing the piece. the bottom mesh and the distribution window aligned with the top mesh piece. In one embodiment, the concave bottom surface 495 of the lower distal edge 492 desirably provides a live joint that is flexible so that the lower distal edge can flatten to stretch a mesh piece (e.g., a mesh bottom piece) from an implant during the positioning of the cover 490 for dispensing the surgical fastener.
[00179] Referring to Figure 19, in one embodiment, an applicator instrument 630 for dispensing surgical fasteners includes a curved outer shaft 640, similar to the structure described above in Figure 1, which has a proximal section 642 and a distal section 644 that is coupled with the proximal section via curved section 645. In one embodiment, the applicator instrument 630 preferably includes an outer shaft rotatable member 655 mounted to a distal end of a device housing 635. The outer shaft rotatable member 635 is connected to a proximal section 642 of the outer shaft 640 to selectively rotate the outer shaft 640. As a result, the rotary member of the outer shaft 655 allows an operator to selectively rotate the proximal section 642 of the curved outer shaft 640 along its length. longitudinal axis A1 to change the orientation of the distal end section 644.
[00180] Figure 20 shows a cross section of the applicator instrument 630 in Figure 19. Referring to Figure 20, in one embodiment, the curved outer axis 640 includes the proximal section 642 that extends along the axis A1 and the distal section 644 which extends along axis A2. Curved section 645 defines the angle α3 between proximal section 642 and distal section 644. Curved outer shaft 640 has an elongated inner conduit through which surgical fasteners 660 can advance distally. The applicator instrument 630 preferably includes an adjunct 760 that has advancing tabs 762 for advancing the surgical fasteners 660 a position toward the distal end of the curved outer shaft 640 each time the actuator is pulled. The applicator instrument also desirably includes an anti-support element 664 which has anti-support tabs 666 to prevent the surgical fasteners from moving proximally. The applicator instrument 630 also includes a flexible firing element 674, such as a flexible cable, which is capable of transferring forces from the firing system, which functions as described herein, to the most distal surgical fastener 660 on the outer axis 640. The element Flexible firing 674 is resistant to compression along its longitudinal axis. Flexible firing element 674 can also be twisted. In one embodiment, as the rotary member of the outer shaft 655 is rotated relative to the housing 635 to change the orientation of the distal section 644 of the curved outer shaft 640, the flexible firing element 674 is capable of flexing, twisting, and bending to hold. a connection between the actuator system and a rigid insertion fork 676 having teeth on a distal end thereof which are adapted to engage the sides of a surgical clamp 660. The flexible triggering element 674 preferably transfers energy from the system driver for rigid insertion fork 676 that engages the sides of a surgical fastener to direct the surgical fastener into soft tissue as described in more detail above.
[00181] In one embodiment, the firing system is the same as that described above, but acts along the central axis of the proximal 642 section of the axis. The flexible element of the firing system 674 extends through a swivel advance system 665. The swivel advance system 665 is preferably aligned with the proximal section 642 of the curved outer shaft 640. The swivel advance system 665 is adapted to rotate with the curved outer axis 640 around a central axis. The advance system is driven from the indexing system described above of the applicator instrument 640 which interfaces with the rotary firing system 665.
[00182] Referring to Figure 21, in one embodiment, an applicator instrument 730 for dispensing surgical fasteners preferably includes a flexible, pivotable outer shaft 740 having a proximal section 742 extending along an axis A1, a distal section 744 that extends along an axis A2 and a flexible, pivotable intermediate section 745 that enables the distal section 744 to pivot relative to the proximal section 742 to change the angle therebetween. In one embodiment, the proximal and distal sections 742, 744 of the outer pivot shaft 740 are substantially less flexible and the intermediate section 745 is more flexible to enable pivotal movement.
[00183] The applicator instrument 730 desirably includes an outer shaft rotary member shaft 755 that is mounted to one end of the housing 735 and which is secured with the proximal section 742 of the outer shaft 740. Rotation of the outer shaft rotary member 755 results in the simultaneous rotation of the proximal section 742 of the outer axis 740 about the longitudinal axis A1, which, in turn, alters the orientation of the distal section 744 of the curved outer axis 740 relative to the proximal section.
[00184] In one embodiment, applicator instrument 730 also desirably includes a pivot control element 775 that is mounted in housing 735. In one embodiment, pivot control element 775 is preferably slidably mounted in housing 735 to move distally and proximally. Referring to Figures 21 and 22, in one embodiment, the applicator instrument includes flexible connections 785A, 785B, which have proximal ends coupled with pivot control element 775 and distal ends coupled with distal section 744 of curved outer stem 740 As shown in Figure 22, the outer shaft 740 includes the proximal rigid section 742, the distal rigid section 744, and the intermediate flexible section 745 that extends between the proximal rigid section 742 and the distal rigid section 744. second links 785A, 785B extend through proximal section 742 and flexible section 745, with the distal ends of the links mated with distal section 744. As pivot control element 775 (Figure 21) is moved toward the distal end of the applicator instrument 730, the first and second connections 785A, 785B cooperate to alter the angle of the distal section 744 of the outer axis with respect to the proximal section 742 of the outer axis. In one embodiment, as the pivot control element 775 moves toward the distal end 734 of the applicator instrument 730, the distal section 744 moves upward. As the pivot control element 775 moves toward the proximal end 732 of the applicator instrument 730, the first and second links 785A, 785B cooperate to move the distal section 744 downward. In this way, the angle of the distal section 744 of the flexible outer shaft 740 can be changed relative to the proximal section 742 by moving the pivot control element 755 in the proximal and distal directions until a desired angle is obtained. In one embodiment, the articulation control element allows an operator to switch the 740's outer axis between a straight configuration and a curved or angled configuration. After a desired straight, curved, or angled configuration is obtained, the orientation of distal section 744 relative to proximal section 742 of outer shaft 740 can be changed by rotating the rotary member of outer shaft 755 which, in turn, changes the orientation of the distal section 744.
[00185] The applicator instrument 730 of Figures 21 and 22 preferably includes a flexible actuator element, a flexible advancer and a flexible anti-support element as described above in Figure 20 to maintain a functional connection with both the firing system and the system of surgical fastener advancement as the shaft is rotated and/or articulated.
[00186] Titles used herein are for organizational purposes only and are not intended to limit the scope of the description or claims. As used throughout this application, the word "may" is used in the permissive sense (ie, meaning having the potential to), rather than the obligatory sense (ie, meaning must). Similarly, the words "include", "including", and "includes" mean including, but not limited to. For ease of understanding, similar reference numerals have been used, where possible, to designate similar elements common to the Figures.
[00187] Although the foregoing is directed to embodiments of the present invention, other additional embodiments of the invention can be invented without deviating from the basic scope of the same, which is limited only by the scope of the following claims. For example, the present invention contemplates that any of the features shown in any of the embodiments described herein, or incorporated herein by reference, may be incorporated with any of the features shown in any other of the embodiments described herein, or incorporated herein by reference, and still fall within the scope of the present invention.

权利要求:
Claims (15)
[0001]
1. Applicator instrument (30) for dispensing surgical fasteners (60), comprising: a housing (35); a firing system (70) disposed in the housing (35); an actuator coupled with the housing (35) to actuate the trigger system (70); an elongated shaft (40) extending from the housing (35), the elongated shaft (40) having an outside diameter; a cap (46, 190) secured to the distal end of the elongated shaft (40), characterized in that the cap (46, 190) has a lower distal edge (192) comprising a center section (200) measuring the outer diameter at the distal end of the elongated shaft (40) and first and second extensions (202, 204) extending laterally from the center section (200) and beyond the outer diameter of the elongated shaft (40).
[0002]
2. Applicator instrument (30) according to claim 1, characterized in that the cover (46, 190) has a distal end face (214) that slopes upwards and proximally from the lower distal edge ( 192), the cover (46, 190) including a surgical fastener dispensing window (194) formed in said distal end face (214) for dispensing surgical fasteners (60).
[0003]
3. Applicator instrument (30) according to claim 2, characterized in that the dispensing window (194) has a lower end (198) that is separate from the lower distal edge (192).
[0004]
4. Applicator instrument (30) according to claim 3, characterized in that the cover (46, 190) has a bottom surface, and wherein the lower distal edge (192) of the cover (46, 190) it has a thickness that extends between the bottom surface of the cover (46, 190) and the lower end (198) of the distribution window (194).
[0005]
5. Applicator instrument (30) according to claim 1, characterized in that the first and second lateral extensions (202, 204) have convexly curved bottom surfaces that extend laterally from the bottom surface of the cover ( 46, 190).
[0006]
6. Applicator instrument (30) according to claim 5, characterized in that the proximal end (212) of the cover (46, 190) has an outer diameter that corresponds and conforms to the outer diameter of the elongated shaft (40 ).
[0007]
7. Applicator instrument (30) according to claim 1, characterized in that the housing (35) defines a bottom (54) of the applicator instrument (30), the applicator instrument (30) further comprises: a handle ( 36) which extends upward from the housing (35) and is angled towards the distal end (34) of the elongated shaft (40), the handle (36) having an upper end (50) defining a top of the instrument. applicator (30); the elongated shaft (40) having a proximal section (42) that extends along a first axis and a distal section (44) that is oriented at an angle relative to the proximal section (42) to extend upwards toward to the top of the applicator instrument (30).
[0008]
8. Applicator instrument (30) according to claim 7, characterized in that the elongated shaft (40) has a curve located between the proximal shaft section (42) and the distal shaft section (44).
[0009]
9. Applicator instrument (30) according to claim 7, characterized in that the firing system (70) disposed in the housing (35) is movable in the distal and proximal directions along the first axis, and in which the cable (36) extends along a second axis which defines an acute angle with the first axis.
[0010]
10. Applicator instrument (30) according to claim 1, characterized in that it comprises: a housing (35) defining a bottom (54) of the applicator instrument (30); a firing system (70) is movable in distal and proximal directions along a first axis; an applicator instrument (30) further comprises a handle (36) extending upwardly from the housing (35) along a second axis defining an acute angle with the first axis, the handle (36) having an upper end. (50) defining a top of the applicator instrument (30); an actuator comprises an actuator (38) mounted on the cable (36) to actuate the trigger system (70); an elongated shaft (40) having a proximal section (42) that extends along the first axis and a distal section (44) that is oriented at an angle relative to the proximal section (42) to extend upwards toward to the top of the applicator instrument (30).
[0011]
11. Applicator instrument (30) according to claim 10, characterized in that the cover (46, 190) has a distal end face (214) that slopes upwards and proximally from the lower distal edge ( 192), the cover (46, 190) including a dispensing window (194) formed in the distal end face (214) for dispensing surgical fasteners (60).
[0012]
12. Applicator instrument (30) according to claim 11, characterized in that the dispensing window (194) has a lower end (198) that is separate from the lower distal edge (192), and in which the edge The lower distal (192) of the cover (46, 190) has a thickness that extends between the bottom surface of the cover and the lower end (198) of the delivery window (194).
[0013]
13. Applicator instrument (30) according to claim 1, characterized in that it comprises: a housing (35) defining a bottom (54) of the applicator instrument (30); a firing system (70) is movable in distal and proximal directions; an applicator instrument (30) further comprises a handle (36) extending upwardly from the housing (35) and which is angled toward the distal end (34) of the applicator instrument (30), the handle having an upper end. (50) defining a top of the applicator instrument (30); an elongated shaft (40) extending distally from the housing (35) near the bottom (54) of the applicator instrument (30), the shaft (40) having a proximal section (42) extending along an axis. longitudinal of the applicator instrument (30) and a distal section (44) that is oriented at an angle relative to the proximal section (42) to extend upward toward the top of the applicator instrument (30); an applicator instrument (30) further comprises a plurality of surgical fasteners (60) loaded in series within the elongated shaft (40); a cover (46, 190) having a distal face (214) that slopes upwardly and proximally from the lower distal edge (192), the cover (46, 190) including a dispensing window (194) formed in the face distal (214), a dispensing window (194) having a lower end (198) that is separate from said lower distal edge (192); and an actuator comprising an actuator (38) mounted on the handle (36) for actuating the trigger system (70) to dispense surgical fasteners (60) through the dispensing window (194).
[0014]
14. Applicator instrument (30) according to claim 13, characterized in that it comprises: the cover (46, 190) has a bottom surface, and wherein the lower distal edge (192) of the cover (46, 190) has a thickness that extends between the bottom surface of the cover and the lower end (198) of the distribution window (194), the first and second side extensions (202, 204) have convexly curved bottom surfaces that extend laterally from the bottom surface of the cover (46, 190), the first and second side extensions (202, 204) have side edges that are curved, and the cover (46, 190) has a first concave surface (206) that extends between an upper surface of the first side edge and an upper end (210) of the cover (46, 190) and a second concave surface (208) which extends between an upper surface of the second side edge and the upper end (210 ) of the cover (46, 190).
[0015]
15. Applicator instrument (30) according to claim 13, characterized in that the proximal end (212) of the cover (46, 190) has an outer diameter that corresponds and conforms to the outer diameter of the elongated shaft (40 ).

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同族专利:

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公开号 | 公开日

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US20130304091A1|2013-11-14|

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CN104271050A|2015-01-07|

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JP2015517348A|2015-06-22|

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BR112014028096A2|2017-06-27|

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WO2013170013A3|2014-01-16|

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KR20150008178A|2015-01-21|

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WO2013170013A2|2013-11-14|

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IL235352D0|2014-12-31|

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RU2014150034A|2016-07-10|

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JP6169686B2|2017-07-26|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US3740994A|1970-10-13|1973-06-26|Surgical Corp|Three stage medical instrument|

---

US4603693A|1977-05-26|1986-08-05|United States Surgical Corporation|Instrument for circular surgical stapling of hollow body organs and disposable cartridge therefor|

---

CA1082552A|1977-08-05|1980-07-29|Charles H. Klieman|Hemostatic clip applicator|

---

US4196836A|1978-02-14|1980-04-08|Senco Products Inc.|Surgical stapling instrument|

---

US4396139A|1980-02-15|1983-08-02|Technalytics, Inc.|Surgical stapling system, apparatus and staple|

---

US4478220A|1982-02-05|1984-10-23|Ethicon, Inc.|Ligating clip cartridge|

---

US4471780A|1982-02-05|1984-09-18|Ethicon, Inc.|Multiple ligating clip applier instrument|

---

US4496090A|1982-03-10|1985-01-29|Crevier Paul H|Surgical stapler|

---

WO1989004144A1|1987-11-03|1989-05-18|Ophthalmic Ventures Limited Partnership|Surgical stapling system|

---

SU1549833A1|1988-04-18|1990-03-15|Куйбышевская Городская Больница N1 Им.Н.И.Пирогова|Surgical suturing device|

---

US4921326A|1989-03-23|1990-05-01|Victor F. Wild|Fiber optic probe|

---

US5104025A|1990-09-28|1992-04-14|Ethicon, Inc.|Intraluminal anastomotic surgical stapler with detached anvil|

---

US5104394A|1990-11-05|1992-04-14|Knoepfler Dennis J|Automatic stapler for laparoscopic procedure with selective cutter and suction irrigator|

---

US5366458A|1990-12-13|1994-11-22|United States Surgical Corporation|Latchless surgical clip|

---

US5174487A|1991-04-04|1992-12-29|Ethicon, Inc.|Endoscopic stapler and hernia repair mechanism|

---

US5470010A|1991-04-04|1995-11-28|Ethicon, Inc.|Multiple fire endoscopic stapling mechanism|

---

US5203864A|1991-04-05|1993-04-20|Phillips Edward H|Surgical fastener system|

---

US5484095A|1992-03-31|1996-01-16|United States Surgical Corporation|Apparatus for endoscopically applying staples individually to body tissue|

---

US5626587A|1992-10-09|1997-05-06|Ethicon Endo-Surgery, Inc.|Method for operating a surgical instrument|

---

US5601224A|1992-10-09|1997-02-11|Ethicon, Inc.|Surgical instrument|

---

US5381943A|1992-10-09|1995-01-17|Ethicon, Inc.|Endoscopic surgical stapling instrument with pivotable and rotatable staple cartridge|

---

US5972000A|1992-11-13|1999-10-26|Influence Medical Technologies, Ltd.|Non-linear anchor inserter device and bone anchors|

---

US5624453A|1993-02-23|1997-04-29|Wilson-Cook Medical, Inc.|Endoscopic ligating instrument|

---

JP2958219B2|1993-08-20|1999-10-06|住友ベークライト株式会社|Endoscopic ligation kit|

---

US5607436A|1993-10-08|1997-03-04|United States Surgical Corporation|Apparatus for applying surgical clips|

---

US5533496A|1994-02-15|1996-07-09|Very Inventive Physicians, Inc.|Endoscopic technique particularly suited for exploratory surgery|

---

US5833700A|1995-03-15|1998-11-10|Ethicon Endo-Surgery, Inc.|Sterile occlusion fasteners and instrument and method for their placement|

---

CA2143560C|1994-03-02|2007-01-16|Mark Fogelberg|Sterile occlusion fasteners and instrument and method for their placement|

---

DE4415891A1|1994-05-05|1995-11-09|Wilo Medizintechnik Gmbh|Surgical staple gun|

---

US5582616A|1994-08-05|1996-12-10|Origin Medsystems, Inc.|Surgical helical fastener with applicator|

---

US5571116A|1994-10-02|1996-11-05|United States Surgical Corporation|Non-invasive treatment of gastroesophageal reflux disease|

---

US6402780B2|1996-02-23|2002-06-11|Cardiovascular Technologies, L.L.C.|Means and method of replacing a heart valve in a minimally invasive manner|

---

WO1997038634A1|1996-04-18|1997-10-23|Applied Medical Resources Corporation|Malleable clip applier and method|

---

US6221007B1|1996-05-03|2001-04-24|Philip S. Green|System and method for endoscopic imaging and endosurgery|

---

US5830221A|1996-09-20|1998-11-03|United States Surgical Corporation|Coil fastener applier|

---

US5993464A|1998-01-23|1999-11-30|Ethicon Endo-Surgery, Inc.|Surgical stapling instrument|

---

WO1999039632A1|1998-02-06|1999-08-12|Evans David K|Device for visualizing, dissecting and harvesting vessels|

---

AU8800601A|2000-09-08|2002-03-22|James E Coleman|Device for locating a puncture hole in a liquid-carrying vessel|

---

US7485124B2|2000-10-19|2009-02-03|Ethicon Endo-Surgery, Inc.|Surgical instrument having a fastener delivery mechanism|

---

US6425900B1|2000-10-19|2002-07-30|Ethicon Endo-Surgery|Method for attaching hernia mesh|

---

US6997931B2|2001-02-02|2006-02-14|Lsi Solutions, Inc.|System for endoscopic suturing|

---

US6558400B2|2001-05-30|2003-05-06|Satiety, Inc.|Obesity treatment tools and methods|

---

US20020183762A1|2001-06-01|2002-12-05|Ams Research Corporation|Bone anchor inserters and methods|

---

NL1018302C1|2001-06-15|2002-07-17|Eric Berreklouw|Applicator for a prosthesis, assembly comprising such an applicator and tensioning system for loading such an applicator.|

---

JP4180506B2|2001-06-27|2008-11-12|デピュイ・プロダクツ・インコーポレイテッド|Minimally invasive orthopedic device and method|

---

FR2836816B1|2002-03-08|2005-01-28|Sofradim Production|APPARATUS FOR STORING, DISPENSING AND LAYING SURGICAL I-LAYER FASTENERS|

---

CA2479841C|2002-03-22|2012-03-13|Ethicon Endo-Surgery, Inc.|An integrated visualization system|

---

US7666193B2|2002-06-13|2010-02-23|Guided Delivery Sytems, Inc.|Delivery devices and methods for heart valve repair|

---

JP4373146B2|2002-07-11|2009-11-25|オリンパス株式会社|Endoscopic suturing device|

---

US7766207B2|2003-12-30|2010-08-03|Ethicon Endo-Surgery, Inc.|Articulating curved cutter stapler|

---

US6988650B2|2003-12-30|2006-01-24|Ethicon Endo-Surgery, Inc.|Retaining pin lever advancement mechanism for a curved cutter stapler|

---

US7210609B2|2004-07-30|2007-05-01|Tools For Surgery, Llc|Stapling apparatus having a curved anvil and driver|

---

US7559450B2|2005-02-18|2009-07-14|Ethicon Endo-Surgery, Inc.|Surgical instrument incorporating a fluid transfer controlled articulation mechanism|

---

US7771440B2|2005-08-18|2010-08-10|Ethicon Endo-Surgery, Inc.|Method and apparatus for endoscopically performing gastric reduction surgery in a single pass|

---

US7886953B2|2005-08-18|2011-02-15|Ethicon Endo-Surgery, Inc.|Fired device lockout for a curved cutter stapler with a free moving trigger|

---

US20070049949A1|2005-08-25|2007-03-01|Microline Pentax Inc|Clip feeder mechanism for clip applying device|

---

US7648514B1|2006-03-08|2010-01-19|Granit Medical Innovation, Llc|Deep endoscopic staple and stapler|

---

US7976554B2|2006-04-19|2011-07-12|Vibrynt, Inc.|Devices, tools and methods for performing minimally invasive abdominal surgical procedures|

---

AT462360T|2006-07-07|2010-04-15|Ethicon Endo Surgery Inc|INTRODUCTION SYSTEM FOR A SURGICAL INSTRUMENT|

---

WO2008106679A2|2007-03-01|2008-09-04|Campos Jorge A|Face tip assembly for an endoscope|

---

EP2214575A2|2007-11-29|2010-08-11|SurgiQuest, Incorporated|Surgical instruments with improved dexterity for use in minimally invasive surgical procedures|

---

US8870049B2|2008-03-14|2014-10-28|Transenterix, Inc.|Hernia stapler|

---

EP2257227A4|2008-03-14|2014-03-26|Safestitch Medical Inc|Hernia stapler with integrated mesh manipulator|

---

US8372092B2|2008-03-17|2013-02-12|Ethicon, Inc.|Applicator instruments having protective carriers for hemostats and methods therefor|

---

US8523040B2|2008-05-01|2013-09-03|Ethicon Endo-Surgery, Inc.|Fastener and fastener applier having selective suture attachment|

---

AU2012202287A1|2008-05-28|2012-05-10|Vibrynt, Inc.|Minimally-invasive methods for implanting obesity treatment devices|

---

US8056565B2|2008-08-25|2011-11-15|Tyco Healthcare Group Lp|Surgical clip applier and method of assembly|

---

US8585717B2|2008-08-29|2013-11-19|Covidien Lp|Single stroke endoscopic surgical clip applier|

---

US9713468B2|2009-01-26|2017-07-25|Ethicon Endo-Surgery, Inc.|Surgical stapler for applying a large staple through a small delivery port and a method of using the stapler to secure a tissue fold|

---

US8920439B2|2009-05-12|2014-12-30|Ethicon, Inc.|Applicator instruments having curved and articulating shafts for deploying surgical fasteners and methods therefor|

---

US8894669B2|2009-05-12|2014-11-25|Ethicon, Inc.|Surgical fasteners, applicator instruments, and methods for deploying surgical fasteners|

---

US8579920B2|2009-05-12|2013-11-12|Ethicon, Inc.|Surgical fasteners, applicator instruments, and methods for deploying surgical fasteners|

---

US8728098B2|2009-05-12|2014-05-20|Ethicon, Inc.|Surgical fasteners, applicator instruments, and methods for deploying surgical fasteners|

---

US8728099B2|2009-05-12|2014-05-20|Ethicon, Inc.|Surgical fasteners, applicator instruments, and methods for deploying surgical fasteners|

---

US8613383B2|2010-07-14|2013-12-24|Ethicon Endo-Surgery, Inc.|Surgical instruments with electrodes|

---

EP2616021B1|2010-09-17|2014-04-16|Thomas Menzel E|Internal gastric bander for obesity|

---

US8771173B2|2010-12-14|2014-07-08|Saint Joseph's Translational Research Institute, Inc.|Access device for surgery|

---

US8397972B2|2011-03-18|2013-03-19|Covidien Lp|Shipping wedge with lockout|

---

US8740919B2|2012-03-16|2014-06-03|Ethicon, Inc.|Devices for dispensing surgical fasteners into tissue while simultaneously generating external marks that mirror the number and location of the dispensed surgical fasteners|

---

US9820837B2|2012-04-10|2017-11-21|Ethicon, Inc.|Single plane tissue repair patch|

---

US8518055B1|2012-05-11|2013-08-27|Ethicon, Inc.|Applicator instruments for dispensing surgical fasteners during open repair procedures|

---

USD707820S1|2013-03-05|2014-06-24|Ethicon, Inc.|Contoured tip|US20120145765A1|2002-06-25|2012-06-14|Peterson James A|Mechanical method and apparatus for bilateral tissue fastening|

---

US8894669B2|2009-05-12|2014-11-25|Ethicon, Inc.|Surgical fasteners, applicator instruments, and methods for deploying surgical fasteners|

---

US9314306B2|2010-09-17|2016-04-19|Hansen Medical, Inc.|Systems and methods for manipulating an elongate member|

---

US8518055B1|2012-05-11|2013-08-27|Ethicon, Inc.|Applicator instruments for dispensing surgical fasteners during open repair procedures|

---

US10575716B2|2012-05-11|2020-03-03|Ethicon Llc|Applicator instruments with imaging systems for dispensing surgical fasteners during open repair procedures|

---

US20150272584A1|2014-03-31|2015-10-01|Coloplast A/S|Adapter attachable to a shaft of an anchor delivery tool|

---

US9844377B2|2014-04-25|2017-12-19|Incisive Surgical, Inc.|Method and apparatus for wound closure with sequential tissue positioning and retention|

---

US20160287248A1|2015-03-31|2016-10-06|Shalom Levin|Gear mechanism for rotating drive shaft|

---

US10004499B2|2015-05-19|2018-06-26|Ethicon, Llc|Applicator instruments having end caps with gripping features|

---

USD765246S1|2015-05-19|2016-08-30|Ethicon, Llc|Distal end cap having gripping features|

---

US9713520B2|2015-06-29|2017-07-25|Ethicon, Inc.|Skirted tissue repair implant having position indication feature|

---

US10064622B2|2015-07-29|2018-09-04|Covidien Lp|Surgical stapling loading unit with stroke counter and lockout|

---

US10292702B2|2015-11-17|2019-05-21|Ethicon, Inc.|Applicator instruments for dispensing surgical fasteners having articulating shafts and articulation control elements|

---

US10299905B2|2015-12-28|2019-05-28|Ethicon, Inc.|Applicator instruments having off-axis surgical fastener delivery|

---

US10743867B2|2016-12-07|2020-08-18|Ethicon, Inc.|Applicator instruments having insertable, changeable cartridges for dispensing surgical fasteners|

---

US10716461B2|2017-05-17|2020-07-21|Auris Health, Inc.|Exchangeable working channel|

---

US10758245B2|2017-09-13|2020-09-01|Covidien Lp|Clip counting mechanism for surgical clip applier|

---

WO2019190657A1|2018-03-28|2019-10-03|Auris Health, Inc.|Medical instruments with variable bending stiffness profiles|

---

CN112804946A|2018-08-07|2021-05-14|奥瑞斯健康公司|Combining strain-based shape sensing with catheter control|

---

CN112804933A|2018-09-26|2021-05-14|奥瑞斯健康公司|Articulating medical device|

法律状态:
2017-08-08| B25A| Requested transfer of rights approved|Owner name: ETHICON, LLC (PR) |

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2017-08-22| B25A| Requested transfer of rights approved|Owner name: ETHICON LLC (US) |

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2017-09-05| B25D| Requested change of name of applicant approved|Owner name: ETHICON LLC (US) |

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2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

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2019-12-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

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2021-05-11| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

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2021-06-22| 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 09/05/2013, OBSERVADAS AS CONDICOES LEGAIS. |

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2021-11-16| B16C| Correction of notification of the grant [chapter 16.3 patent gazette]|Free format text: REF. RPI 2633 DE 22/06/2021 QUANTO AO INVENTOR. |

优先权:

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申请号 | 申请日 | 专利标题

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US13/470,065|2012-05-11|

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US13/470,065|US9364228B2|2012-05-11|2012-05-11|Applicator instruments having distal end caps for facilitating the accurate placement of surgical fasteners during open repair procedures|

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PCT/US2013/040326|WO2013170013A2|2012-05-11|2013-05-09|Applicator instruments having distal end caps for facilitating the accurate placment of surgical fasteners during open repair procedures|

---