An end effector for a wristed surgical instrument includes a first jaw member, a second jaw member coupled to the first jaw member by a pivot pin, an actuation string, and a blade supported between the first and second jaw members. The first and second jaw members are positioned to pivot and articulate about a pivot axis defined by the pivot pin. The blade is secured to the actuation string and movable relative to the first and second jaw members to sever tissue clamped between the first and second jaw members in response to actuation of the actuation string.

A method for determining motional branch current in an ultrasonic transducer of an ultrasonic surgical device over multiple frequencies of a transducer drive signal. The method may comprise, at each of a plurality of frequencies of the transducer drive signal, oversampling a current and voltage of the transducer drive signal, receiving, by a processor, the current and voltage samples, and determining, by the processor, the motional branch current based on the current and voltage samples, a static capacitance of the ultrasonic transducer and the frequency of the transducer drive signal.

A surgical instrument that includes a first jaw that has a pair of laterally aligned vertical slots formed in a proximal end portion thereof. Each vertical slot includes an open upper end. A second jaw is movably supported for selective pivotal travel relative to the first jaw between a fully open and a fully closed position. Pivot members protrude laterally from the second jaw and are each received in a corresponding one of the vertical slots in the first jaw such that the pivot members may pivot therein. A retainer member is configured to operably engage the proximal end portion of the first jaw and retain the pivot members in the corresponding vertical slots as the second jaw moves between the fully open and the fully closed positions.

A surgical tool assembly that includes an axially movable closure member and an axially movable firing member that is movable between an unfired position and a fired position. The tool assembly includes a second jaw that has a mounting portion and mounting walls that are movably mounted to a first jaw. The mounting portion defines a cam area that is configured for engagement by the movable closure member to move the second jaw from an open position to a closed position. The mounting walls define an open-topped parking area for accommodating the firing member therein when in the unfired position. A protective cap member is attached to the mounting walls such that it covers at least a portion of the open topped parking area.

A surgical stapling device includes a tool assembly having an anvil, a cartridge assembly movable in relation to the anvil between open and clamped positions, a drive member, and a biasing mechanism or member. The biasing mechanism or member is configured to urge the cartridge assembly in relation to the anvil assembly to its fully open position to provide access to tissue during a surgical procedure.

A method is disclosed. The method can comprise obtaining a first staple cartridge and obtaining a second staple cartridge, wherein the first staple cartridge and the second staple cartridge comprise the same length and the same width. The method can further comprise inserting the first staple cartridge into a channel comprising a keyed profile, wherein complete insertion of the first staple cartridge into the channel is prevented by the keyed profile. Additionally, the method can comprise inserting the second staple cartridge into the channel, wherein complete insertion of the second staple cartridge into the channel is permitted by the keyed profile.

Described here are devices, systems, and methods for providing remote traction to tissue. Generally, the systems may include a grasper and a delivery device configured to releasably couple to the grasper. The grasper may have a first jaw and a second jaw and a main body having a barrel portion. The barrel portion may have a lumen extending therethrough, and a portion of the delivery device may be advanced through the lumen to rotate one or both of the jaws. The delivery devices may include a handle, a shaft, and a distal engagement portion. The delivery devices may further include an actuation rod which may be advanced through a barrel portion of a grasper to actuate the grasper. In some instances, the delivery device may further include a locking sheath, wherein the locking sheath is configured to temporarily couple to a grasper.

A medical device for tissue hemostasis or closure that is used by means of an endoscope, the medical device comprising: a handle (1); a sheath apparatus (2) attached to the handle (1); a clamping apparatus (3) comprising a clamping base (6) and at least or exactly two clamping arms (7a, 7b), the clamping base (6) specifically being a sleeve and being disposed on a distal end of the sheath apparatus (2); a control wire (4) that extends to pass through the sheath apparatus (2) and that can move reversibly in a distal direction and a proximal direction; and an actuator (5), the actuator (5) being coupled to a proximal end of the control wire (4) and being capable of actuating such that the control wire (4) moves reversibly in the distal direction and the proximal direction.

A surgical instrument with improved end-effector gripping force. The instrument comprises a shaft, which may be inserted into a body of a patient. The articulated end-effector is mounted on the distal extremity of the instrument shaft and comprises a plurality of links interconnected by a plurality of joints, whose movements are remotely actuated by the surgeon's hands. This remote actuation is accomplished through mechanical transmission, mainly along flexible elements, which are able to deliver motion from a set of actuation elements, placed at a proximal extremity of the shaft, to the instrument's articulated end-effector. The articulated end-effector further comprises one or more cam-and-follower mechanisms that are able to amplify the force transmitted by the flexible elements so that the actuation force at the instrument jaws is maximized and the tension on the transmission elements minimized, thus increasing the fatigue resistance and life of the instrument.

An end effector assembly of a robotic surgical instrument includes a clevis, first and second jaw members supported by the clevis, and a cam bar configured to move the first and second jaw members between an open state and a closed state.