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.

The present invention relates to a surgical cutting instrument for minimally invasive surgery comprising a gripping element, a hollow stem mounted as an extension of said gripping element along a longitudinal axis of the instrument; a tie rod housed in the hollow stem and having a proximal end coupled to a control lever in said gripping element and a distal end hinged to a blade element; a covering and guiding sheath for said blade element as an extension of said stem. The blade element has a fulcrum that is movable in said covering and guiding sheath and is configured to pass from an inactive position in which it is hidden housed in said covering sheath and an active position protruding outwardly through a window of said covering sheath and vice versa.

The present disclosure is directed to methods and devices for fluid drainage from an abscess of a patient.

A replaceable staple cartridge comprising a cartridge body, staples, and a staple cartridge tray secured to the staple cartridge body is disclosed. The cartridge body comprises a first longitudinal slot, a deck, and first sides extending downwardly from the deck, wherein an edge is defined between each first side and the deck. The cartridge body further comprises staple cavities defined in said deck and recesses defined in the deck proximal to the staple cavities. The staple cartridge tray comprises a bottom comprising a second longitudinal slot defined therein and second sides extending upwardly from the bottom, wherein each second side comprises a proximal end including a projection, wherein each second side is adjacent to a first side, and wherein each projection wraps around an edge and extends downwardly into a recess defined in the deck.

A motor-driven surgical cutting and fastening instrument that comprises an end effector, an electric motor, and a motor control circuit. The motor control circuit is for monitoring a parameter of the electric motor that is indicative of movement of a moveable member of the end effector, and for adjustably controlling the electric motor based on the monitored parameter to thereby adjustably control movement of the moveable member of the end effector during forward rotation of the electric motor.

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.

An end effector comprising a first jaw, a plurality of staple cavities, a first slot, a first longitudinal row of first staples, a second longitudinal row of second staples, a second jaw, an anvil comprising forming pockets, a staple driver, and a firing member is disclosed. The staple driver supports a first staple removably stored in said first longitudinal row and a second staple removably stored in said second longitudinal row. The staple driver and said anvil are configured to co-operate to deform said first staple to a first fired height and to deform said second staple to a second fired height. The firing member comprises a first portion configured to extend through said first slot and a second portion configured to engage said anvil. The anvil further comprises a second slot including a lateral portion extending behind a longitudinal row of said forming pockets.

A stapling assembly comprising a tissue thickness compensator is disclosed. The tissue thickness compensator comprises a body portion comprising a porous material and a plurality of cavities defined in the body portion, wherein the cavities are aligned with forming surfaces of an anvil such that fasteners of a fastener cartridge are configured to at least one of the cavities when the fasteners are ejected from the fastener cartridge or capture the cavities and compress the cavities within the tissue thickness compensator when the fasteners are ejected from the fastener cartridge and formed by forming surfaces of the anvil. The stapling assembly further comprises at least one medicament positioned within each cavity prior to firing the stapler, wherein the medicament is different than the porous material.

A method for deforming a staple comprising a base, a first staple leg, and a second staple leg, wherein the base, the first staple leg, and the second staple leg are positioned within a common plane prior to being deformed, the method comprising positioning the first staple leg within a first cup of a staple pocket, the first cup comprising a first inner surface, applying a first compressive force to the first staple leg to bend the first staple leg toward the base and the second staple leg, contacting the first inner surface with the end of the first staple leg to bend the end of the first staple leg toward a first side of the base, and deforming the first staple leg such that the end of the first staple leg crosses a mid-line of the staple defined between the first staple leg and the second staple leg.

Forceps including a housing, a first body, a second body and a drive shaft. The first body has a passageway extending therethrough. The drive shaft extending through the passageway and connected to the first body such that the first body and the drive shaft are slidable with respect to the housing to drive jaws located at a distal portion of the drive shaft between an open position and a closed position. The second body having a second passageway. The drive shaft extending through the second passageway such that the second body is guided by the drive shaft and is slidable relative to the first body and the drive shaft to displace a blade shaft between a retracted position and an extended position.