A surgical fastening device includes a handle assembly, an elongated portion, a shell assembly, a screw drive, and a firing mechanism. The elongated portion extends distally from the handle assembly. The shell assembly is disposed adjacent a distal portion of the elongated portion, and includes a cartridge assembly and an end effector. The screw drive defines a longitudinal axis. A distal portion of the screw drive is engaged with the end effector. Rotation of the screw drive about the longitudinal axis relative to the elongated portion causes longitudinal translation of the end effector relative to the cartridge assembly. The firing mechanism is disposed at least partially within the end effector. A predetermined amount of proximal movement of the end effector relative to the cartridge assembly is configured to at least partially form fasteners disposed in the cartridge assembly.

A method for creating a flexible fastener line is disclosed. The fastener line comprises fasteners oriented in directions which are transverse or oblique to a tissue incision created by a cutting member. The fasteners can translate and/or rotate within the tissue when the tissue is stretched thereby creating flexibility within the tissue.

An orthopedic fixation system includes an implant and an implant insertion device. The implant transitions between a natural shape and an insertion shape. The implant includes a bridge defining a slot with a first end and a second end and first and second anchoring members extending from the bridge. The implant insertion device moves between a loaded position and an unloaded position. The implant insertion device in its loaded position inserts through the slot of the bridge and engages the bridge at the first and second ends of the slot such that the implant insertion device constrains the implant in its insertion shape. The implant insertion device in its unloaded position releases the implant.

An extraction system for bone staples provided with a first and a second element, comprising a main gripping body having a distal end and a proximal end. The device comprises, in addition, a central rod provided with a proximal end and a distal end, the latter adapted to couple with the first element of the staple. The central rod slides axially within the main gripping body between a first position and a second position by means of suitable movement means. The device has a plurality of abutment elements protruding in the axial direction from the distal end of the main body, which are arranged circumferentially around the central rod, adapted to act on the second element of the staple to obtain, in cooperation with the movement of the central rod, the separation of the second element of the staple from the first element of the staple and the removal thereof.

A surgical fastener deployment system may include a plurality of coil fasteners having a head and coil body. In some embodiments, the head is comprised of a bioabsorbable polymer. In one embodiment, the coil body may be comprised of a shell and a core and one of the shell and the core may be comprised of one of a magnesium alloy or a bioabsorbable polymer, and the other of the shell and core is formed of the other of the magnesium alloy and the bioabsorbable polymer. The coil body may also include an internal channel which may have a support coil disposed within.

A surgical fastener deployment system may include a plurality of coil fasteners having a head and coil body. In some embodiments, the head is comprised of a bioabsorbable polymer. In one embodiment, the coil body may be comprised of a shell and a core and one of the shell and the core may be comprised of one of a magnesium alloy or a bioabsorbable polymer, and the other of the shell and core is formed of the other of the magnesium alloy and the bioabsorbable polymer. The coil body may also include an internal channel which may have a support coil disposed within.

A trocar release assembly includes a housing, a release button, first and second springs, and a pin. The housing has top and bottom faces, side faces, and end faces. The end faces include opposed openings that define a passage between. The passage is configured to receive a sleeve of a trocar assembly. The release button is movably coupled to the housing and is movable between a compressed position and an expanded position. The first spring is positioned between the housing and the release button to bias the release button towards the expanded position. The pin slides within a chamber of the housing and is slidable between a retracted position and an extended position. The second spring is operably coupled with the pin to bias the pin towards an extended position.

A medical device for joining materials is provided. The device comprises a piercing element configured to penetrate materials to be joined. The piercing element is sufficiently sharp to penetrate materials to be joined and comprises a hollow interior along at least a portion of its length configured to distal advancement of a fastener therethrough; and an open tip through which the fastener can be pushed. The device can be used for fastening materials including tissue, synthetic mesh, and biologic mesh (e.g., ADM).

An endoscopic clip device for closure of a mucosal defect or transmural perforation in a gastrointestinal wall may include a sleeve and a clip disposed at least partially within and coupled to the sleeve. The clip may be configured for reversibly moving between an open configuration for positioning relative to the wall and a closed configuration for closing the defect or perforation. The clip may include a first clip arm configured for engaging the mucosal and submucosal layers of the wall and including a first needle extending to a distal end of the first clip arm and configured for advancing through the mucosal layer and into at least the submucosal layer, and a second clip arm disposed opposite the first clip arm and configured for engaging the mucosal layer. The device may be configured for advancing through an operative channel of an endoscope or overtube having a tortuous shape.

A surgical stapling device comprises a housing and a plurality of cartridges that are coupled together to form a barrel that is rotatably supported within the housing. Each of the cartridges defines a plurality of staple pockets that support a plurality of staples. An anvil is pivotally coupled to the housing and is movable in relation to the barrel between an open position and a clamped position. A drive shaft extends through the housing and through the barrel and a pusher operatively connected to the drive shaft. The pusher is configured to translate through the barrel to eject the staples from the plurality of cartridges in response to actuation of the drive shaft. The barrel is positioned within the housing to align a first one of the plurality of cartridges with the anvil to eject the staples from the first cartridge upon movement of the pusher within the barrel through a first firing stroke and subsequently rotatable within the housing to align a second one of the plurality of cartridges with the anvil to eject the staples from the second cartridge upon movement of the pusher within the barrel through a second firing stroke.