Provided are an end tool of a surgical instrument and a method of manufacturing the same, and more particularly, an end tool of a surgical instrument that may be manually operated to be used in laparoscopic surgery or other various surgery and a method of manufacturing the end tool, wherein a load applied to a pin (rotary shaft) and the pulley is appropriately distributed such that the pulley may be sufficiently rotated and at the same time, an overall durability may be improved.

A surgical end effector comprising a staple cartridge, an anvil, and a compressible portion intermediate the staple cartridge and the anvil is disclosed. The compressible portion comprises a plurality of tubular members.

A surgical instrument comprising: a jaw assembly; a slider beam; first and second distal jaw-mounted coaxial pulleys rotatably mounted to a distal portion of the second assembly; a two degree of freedom wrist that includes first and second pitch axis pulleys rotatable about a pitch axis and that includes a yaw pulley rotatable about a yaw axis; a first cable that is secured to the slider beam, that wraps about the first distal jaw-mounted pulley and that extends parallel to the jaw assembly to opposite sides of the first pitch axis pulley; a second cable that is secured to the slider beam, that wraps about the second distal jaw-mounted pulley and that extends parallel to the second jaw assembly to opposite sides of the second pitch axis pulley; and at least one yaw cable wrapped about at least a portion of the yaw pulley.

A surgical tool is provided comprising: a jaw assembly that includes a first and second elongated jaws each having a proximal end and a distal end, wherein the proximal end of the first jaw is mounted to be rotatable about a pivot axis between an open position and a closed position; first parallel side edges secured to the first jaw that extend parallel to a longitudinal first axis of the first jaw; second parallel side edges secured to the second jaw that extend parallel to a longitudinal second axis of second jaw; a slider beam that includes a cross-beam portion sized to slidably fit between the first parallel side edges and between the second parallel side edges, a first transverse beam configured to slidably engage surfaces of the first parallel side edges facing away from the second jaw, and a second transverse beam configured to slidably engage surfaces of the second parallel side edges facing away from the first jaw; a pulley rotatably mounted to the distal end of the first jaw; and a first slider cable secured to one side of the first transverse beam, the first slider cable extending about the pulley and past another side of the first transverse beam to the proximal end of the first jaw.

A surgical clip applier and an elongated assembly thereof. The elongated assembly includes an outer shaft, an end effector assembly extending distally from the outer shaft and including first and second spaced-apart arms having first and second jaws disposed at respective free ends thereof, and an inner drive sleeve including a bearing assembly slidably disposed about the end effector assembly. The bearing assembly includes first and second bearing rollers positioned adjacent the first and second spaced-apart arms. Sliding of the bearing assembly from a proximal position to a distal position rolls the bearing rollers along the spaced-apart arms to urge the first and second spaced-apart arms towards one another, thereby moving the first and second jaws from a spaced-apart position to an approximated position to apply a surgical clip about tissue disposed between the first and second jaws.

An apparatus for deployment of multiple hemostatic clips, comprises a shaft connected to a handle and a control linkage operatively connected to the handle in combination with a magazine disposed at a distal end of the shaft, the magazine containing a plurality of clips arranged in a chain rotatable within the magazine, wherein a proximal-most one of the clips is coupled to the control linkage, a distal portion of the magazine being contoured to permit opening of a distal-most one of the clips during a distal stroke of the control linkage, and to assist closing and locking of the distal-most clip during a proximal stroke of the control linkage, the magazine including an expanded chamber sized to allow opening in any rotational orientation of a next clip located immediately proximal to the distal-most clip to a degree sufficient to disengage the distal-most clip. A method for deploying multiple hemostatic clips, comprises positioning a distal end of a magazine containing a clip chain over selected target tissue and actuating a control link of the magazine in a distal stroke to open and distally translate a distal-most clip of the clip chain in combination with orienting the open distal-most clip in a desired orientation to grasp the target tissue and actuating the control link in a proximal stroke to close and lock the distal-most clip over the target tissue. The control link is further actuated in the proximal stroke to move a next clip immediately proximal to the distal-most clip into an expanded portion of the magazine sized to allow the next clip to open to a degree sufficient to release the distal-most clip regardless of a circumferential orientation of the next clip.

In a medical gripping tool with several branches, one branch includes a first flexurally elastic spar, a second flexurally elastic spar, of which the distal end is connected to the distal end of the first flexurally elastic spar, a rib, which is spaced apart from the proximal ends and from the distal ends of the flexurally elastic spars, and a linear guide for coupling the second flexurally elastic spar to the rib, in such a way that a linear movement of the second flexurally elastic spar relative to the rib is possible.

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 suture passing device includes a jaw assembly that is moved to an open configuration after exiting a hollow needle distal tip and moved to a closed configuration when retracted into the needle tip. The jaw assembly may include a pair of jaw members biased to a default diverging configuration. A suture capturing mechanism formed on the jaw members securely captures suture to both push and pull the captured when the jaw assembly is retracted into the hollow distal tip. The device may also include a second suture capturing mechanism that loosely captures suture and enables the captured suture to slide.

A surgical instrument can include a shaft, an end effector, and an articulation joint configured to permit the end effector to rotate relative to the shaft about the articulation joint. The surgical instrument can further comprise a first articulation actuator for rotating the end effector in a first direction and a second articulation actuator for rotating the end effector in a second direction. The articulation actuators can be configured to push the end effector. The articulation actuators can assume different configurations depending on whether they are experiencing a compressive load or a tensile load. The articulation joint can comprise an articulation frame which forms a proximal joint with the shaft and a distal joint with the end effector. The joints can comprise fixed axis joints and/or ball-and-socket joints, for example. The articulation joint can comprise links having different sizes to facilitate the articulation of the articulation joint.