A surgical stapling assembly that includes a surgical stapling device that has a lockout that is movable between a locked position and an unlocked position. The assembly further includes a staple cartridge with a first cam surface configured to cammingly engage a primary portion of the lockout to move the lockout laterally from the locked position and a second cam surface configured cammingly engage a secondary portion of the lockout to further move the lockout laterally into the locked position when the cartridge is operably seated in the device.

A surgical staple cartridge is disclosed comprising a plurality of staples removably stored within the surgical staple cartridge. The staples comprise staple legs which extend from a staple base portion. The staple legs comprise staple tips configured to pierce tissue and contact a corresponding forming pocket of an anvil of surgical stapling instrument. The staples further comprise zones having different hardnesses.

A clip for holding one or more buttons of a medical device in a pre-use state. The clip includes an elongate band for wrapping around the medical device. A receiving portion formed in the elongate band that is configured to receive at least one button when the band is wrapped around the medical device and a retaining means for retaining the band around the medical device.

A seal assembly that seals opening in the wall of a blood vessel has a first sealing element for placing inside the lumen of the blood vessel and to engage the interior wall surface, a shaft integrally formed with the first sealing element and fixed in a predetermined configuration relative to the first sealing element, an outer floating element slidingly movable along the shaft; and a second sealing element, the second sealing element slidingly movable relative to the first sealing element along the shaft to engage the outer floating element and position the outer floating element against the exterior surface and the first sealing element against the interior surface of the blood vessel to seal the opening in the blood vessel.

A surgical stapling system can include a reload shaft. The shaft can include an elongate tubular member with have a jaw assembly at the distal end thereof and a coupling collar at the proximal end thereof. The shaft assembly also includes an articulation joint coupling the jaw assembly to the distal end. A drive member and an articulation member extend within the tubular body of the shaft from the proximal end to the distal end. A firing member is connected to the distal end of the drive member such that advancement of the drive beam advances the firing member to close the jaw assemblies and fire staples from a reload positioned in the jaw assembly. The shaft assembly can also include a lockout mechanism to prevent a firing operation on a previously-fired reload or no reload.

According to an aspect of the present disclosure, an endoscopic surgical device is provided. The surgical device includes a handle assembly including a drive mechanism actuatable by a trigger; and an endoscopic assembly including a proximal end portion extending from the handle assembly; a distal end portion pivotably connected to the proximal end portion of the endoscopic assembly; and a rotatable inner actuation shaft extending from the handle assembly and into the distal end portion of the endoscopic assembly, the inner actuation shaft including a flexible portion extending across the pivot connection. The surgical device includes an end effector selectively connectable to the distal end portion of the endoscopic assembly and to a distal portion of the rotatable inner actuation shaft. The surgical device includes a shipping wedge to support an end effector.

A shipping wedge (10) for a staple cartridge includes a body (12), an elongate fin (22), at least one tooth (32), and a knife stop (20). The elongate fin (22) is supported on a bottom surface (16) of the body (12). The tooth (32) extends from the bottom surface (16) on the proximal portion of the body (12) and is positioned to be received within a recess formed in the staple cartridge (102). The knife stop (20) extends from a top surface (14) of the proximal end of the body and is positioned to obstruct movement of a knife bar (122) of the staple cartridge (102) when the shipping wedge (10) is attached to the staple cartridge (102). A sled stop member (26) extends from the bottom surface (16) on the proximal portion of the body (12) of the shipping wedge (10) and is positioned to obstruct movement of an actuation sled of the staple cartridge (102).

A clamshell stapling end effector includes first and second jaws and defines an end effector axis. The first jaw has proximal, central, and distal portions. The central portion includes a first tissue contacting surface and defines a cavity. The second jaw includes a second tissue contacting surface and is rotatably secured to the first jaw about a rotation axis. The rotation axis is parallel to the end effector axis. The second jaw has a folded position such that the second jaw is positioned within the cavity of the first jaw with the first and second tissue contacting surfaces parallel to one another and facing in the same direction and a clamped position such that the first and second tissue contacting surfaces oppose one another.

A method of operating a surgical assembly is disclosed. The method includes receiving a first input from a first RFID scanner indicative of a first information stored in a first RFID chip of a first modular component of the surgical assembly, receiving a second input from a second RFID scanner indicative of a second information stored in a second RFID chip of a second modular component of the surgical assembly, determining an operational parameter of a motor of the surgical assembly based on the first input and the second input, and causing the motor to effect a tissue treatment motion of the first modular component.

A loading unit including a shipping assembly is provided. The shipping assembly is operably received adjacent the cartridge assembly to retain staples with the cartridge assembly. The shipping assembly includes a shipping member selectively secured to loading unit and a locking member slidably disposed within the shipping member. The locking member is movable between a proximal position wherein the shipping member is secured to the housing and a distal position wherein the shipping member is removable from the housing.