A medical sliding-shaft instrument having a first handle arm, a second handle arm pivotably mounted to the first handle arm, a shaft connected to the first handle arm and a slider coupleable to the second handle arm and axially displaceable on the shaft. The slider is removable from the shaft and is guided along a sliding path. A cross-pin couples the second handle arm to the slider and is received in a slot defined by first and second legs of the second handle arm. The first leg is a resilient tongue moveable transversely to a longitudinal axis of the first leg and outwardly away from the second leg. The second handle arm is positioned so that the cross pin lies in the slot. The cross pin is covered and held back by the first leg and is released by applying a force and displacing the end of the first leg.

An approximator device is provided. The approximator device may include an elongate member having a working end and a control end, at least two prongs disposed on the working end configured to engage tissue and longitudinally interface with one another, and a control mechanism disposed at the control end operatively coupled to one or more of the prongs and configured to longitudinally move the one or more prongs between an open position and an approximating position.

An endoscopic bipolar forceps includes a housing having a shaft extending therefrom with an end effector disposed at a distal end thereof. The end effector assembly includes a first and second jaw members having cam slots defined therein with distal and proximal sections at different angles relative to a longitudinal axis. Upon initial actuation of a handle, a cam pin engages the distal cam section of the first jaw member causing it to move relative to the second jaw member while the second jaw member remains stationary. Upon continued actuation of the handle, the cam pin engages the proximal cam section of the first jaw member causing the first jaw member to remain stationary while the second jaw member cams relative to the first jaw member to close against tissue disposed between the first and second jaw members.

A surgical instrument with a first contact element and a second contact element for spreading tissue, bone, or the like. The instrument has a stationary base part and a sliding part, which is arranged on the base part in a longitudinally movable manner. The first contact element is integrally molded on the distal end of the base part, and the second contact element is connected to the base part and to the sliding part via a first arm and to the base part via a second arm. The first arm is arranged on the second contact element via a first pivot axis, on the base part via a second pivot axis, and on the sliding part via a third pivot axis, and the second arm is arranged on the second contact element via a fourth pivot axis and on the first contact element via a fifth pivot axis.

A tool assembly for a surgical stapling device includes a first jaw supporting an anvil. A second jaw supports a staple cartridge. A drive member is movable from a retracted position towards an advanced position to move the second jaw in relation to the first jaw from an open position to a clamped position. At least two first pivoting links are operably coupled to a first side of the first and second jaws. At least two second pivoting links are operably coupled to a second side of the first and second jaws. The pivoting links each pivot in response to longitudinal advancement of the I-beam to move the second jaw between the open position and the clamped position. The second surface of the cartridge assembly is maintained in substantially parallel alignment with the first surface of the anvil as the second jaw is moved between the open position and the clamped position.

A surgical instrument and related methods are disclosed. The instrument has a first jaw, a second jaw, and a first actuator. The first actuator has a cam mechanism to engage the first jaw to effectuate movement of the first jaw between an open position, a clamping position, and a closed position. Movement of the first jaw between the open position and the clamping position includes a rotational component. Movement of the first jaw between the clamping position and the closed position is translational.

A stapling device includes first and second jaws. The second jaw defines first and second threaded bores. A drive member has a distal end portion supporting a rack. An approximation drive assembly includes a first lead screw received within the first threaded bore. A second lead screw is received within the second threaded bore. A first pinion is supported on the first lead screw. A second pinion is supported on the second lead screw. Moving the drive member from the retracted position toward the advanced position advances the rack to rotate the first pinion and the second pinion, the first lead screw within the first threaded bore, and the second lead screw within the second threaded bore to move the second jaw in relation to the first jaw from an open position to a clamped position.

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 tissue cutting device has a blade that pivots to pierce through tissue and translates to cut tissue, thereby providing a clean and smooth cut through tissue. The blade is coupled to an axial rod. Axial displacement of the axial rod pivots the blade and imparts axial displacement to the blade.