A surgical forceps including a housing having a movable handle coupled thereto and movable between an initial position and a compressed position is disclosed. A drive bar is operably coupled to the movable handle such that movement of the movable handle between the initial and compressed positions effects longitudinal translation of the drive bar. The drive bar further includes a coupling member disposed at a distal end thereof. An end effector assembly includes first and second jaw members movable between spaced-apart and approximated positions. Each jaw member defines a cam slot. A cam pin is slidably disposed within the cam slot of each of the jaw members. The coupling member is configured to releasably engage the cam pin such that movement of the movable handle between the initial position and the compressed position effects movement of the jaw members between the spaced-apart position and the approximated position.

A medical device includes a laparoscopic shaft having proximal and distal ends and defining a shaft axis. A surgical end effector is at the distal end of the shaft. A surgical procedure actuator carries out a surgical procedure on tissue at the end effector when actuated. A rotating knob is at the proximal end of the shaft. The rotating knob rotates the end effector with respect to the shaft about the shaft axis when rotated and actuates the procedure actuator when slid in a proximal direction.

A fastener cartridge can comprise a support portion, a tissue thickness compensator positioned relative to the support portion, and a plurality of fasteners positioned within the support portion and/or the tissue thickness compensator which can be utilized to fasten tissue. In use, the fastener cartridge can be positioned in a first jaw of a surgical fastening device, wherein a second jaw, or anvil, can be positioned opposite the first jaw. To deploy the fasteners, a staple-deploying member is advanced through the fastener cartridge to move the fasteners toward the anvil. As the fasteners are deployed, the fasteners can capture at least a portion of the tissue thickness compensator therein along with at least a portion of the tissue being fastened.

A guide and remote traction system for mini-invasive surgery in a body cavity that is easily positioned and hooked and causes lower injury, comprising: at least one detachable surgical endoclamp (10) with hooking means (11, 12), assembled with an introduction guide (20) and at an initially open position; and at a naturally closed position when detached from said introduction guide (20) by a detachment mechanism; said endoclamp (10) comprising a portion of ferromagnetic material at the end opposed to said hooking means (11, 12); a cylindrically-shaped introduction guide (20) assembled with said detachable surgical endoclamp (10), said introduction guide (20) comprising a mechanism to detach said endoclamp (10); and at least one remote traction means (30) for said endoclamp (10), acting through the application of an electromagnetic field over the ferromagnetic portion of said endoclamp (10).

The present invention relates to a laparoscopic surgery instrument that does not require a trocar, the laparoscopic surgery instrument including: a first part inserted into the body of the abdominal cavity and provided with a surgical instrument; and a second part placed outside the body of the abdominal cavity and coupled to the first part to manipulate the operation state of the surgical instrument, wherein the first part and the second part are primarily coupled to each other by magnetic force while the first part is inserted into the body.

A stapling assembly system for use with a surgical stapling instrument is disclosed. The stapling assembly system comprises a shaft portion and a first replaceable cartridge jaw that comprises a first retainer configured to prevent first staple drivers from falling out of said first replaceable cartridge jaw. The stapling assembly system further comprises a second replaceable cartridge jaw that comprises a second retainer configured to prevent second staple drivers from falling out of said second replaceable cartridge jaw. The stapling assembly system further comprises a second jaw comprising an anvil, a firing member configured to engage said first staple drivers during a first firing stroke of said firing member and said second staple drivers during a second firing stroke of said firing member, and a lockout configured to selectively prevent said firing member from being advanced through a said firing stroke.

A selectively bendable remote access gripping tool, includes a jaw portion having a pair of jaws or nets movable relative to each other between clamped and opened positions thereof, a handle portion spaced apart from the jaw portion by a bendable central portion that has a hollow, corrugated member that is bendable, and a cord extending through the hollow bendable member that connects the jaw portion and the handle portion.

A robotic surgical assembly includes a drive assembly and a shaft assembly. The drive assembly is detachably mountable to a surgical robot and includes roll, pitch, and clamp/fire inputs configured to drivingly couple with respective outputs of the surgical robot. The shaft assembly is mounted to the drive assembly and configured to detachably couple with a stapler reload assembly that includes a reload roll shaft, a reload pitch shaft, and a reload clamp/fire shaft. The shaft assembly includes a roll shaft, a pitch shaft, and a clamp/fire shaft. The roll shaft is drivingly coupled with the roll input and configured to detachably couple to the reload roll shaft. The pitch shaft is drivingly coupled with the pitch input and configured to detachably couple to the reload pitch shaft. The clamp/fire shaft is drivingly coupled with the clamp/fire input and configured to detachably couple to the reload clamp/fire shaft.

A surgical clip applier is disclosed which is configured to automatically feed a clip from a clip cartridge once the surgical clip applier is positioned in the patient.

A slide slot type multi-arm clamp includes a handle, a catheter, a clamping portion, a spring tube and a control line. In practical applications, a surgical operator applies an axial thrust and a pulling force to the handle to drive the control line to move, so as to open/close and lock the clamping portion. Moreover, side clamp arms and a clamp base in the clamping portion can be easily separated from the catheter or the spring tube to stay in a human body so as to achieve the functions of hemostasis and tissue suture. The side slot type multi-arm clamp can achieve the effect of minimizing the length of the instrument retained in the human body by the cooperation between the side clamp arms and the clamp base.