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.

Disclosed is a four-jawed combinational scissor-grasper surgical tool for use in laparoscopy, Cutting and grasping functionalities are respectively enabled via movement of a pair of such specially contoured jaw members sliding against or splaying apart from the other pair. Also disclosed are means for achieving selectable interlocking of jaw members and mechanical linkage for their actuation by human user.

Provided is a medical treatment tool, the distance between a first advance and retraction axis, and a tip end is shorter than the length of the first link member, and the length when a line segment connecting the base end and the center of a forceps rotation shaft is projected on the first advance and retraction axis is shorter than the length is projected on the first advance and retraction axis. The distance between a second advance and retraction axis, and a tip end is shorter than the length of the second link member, and the length when a line segment connecting the base end and the center of a forceps rotation shaft is projected on the second advance and retraction axis is shorter than the length projected on the second advance and retraction axis.

A handle includes a first operation input body provided on a handle main body and configured to rotate in first and second directions to operate a first end effector; an interlock body rotatable relative to the first operation input body; an engaging portion provided in the interlock body and configured to be engaged with the handle main body and to restrict rotation of the first operation input body in the second direction when the first operation input body is rotated in the first direction; and a second operation input body configured to rotate to operate a second end effector, and disengage the engaging portion from the handle main body by pressing the interlock body.

Various embodiments are direct to a surgical instrument comprising and end effector, an articulating shaft and an ultrasonic transducer assembly. The end effector may comprise an ultrasonic blade. The articulating shaft may extend proximally from the end effector along a longitudinal axis and may comprise a proximal shaft member and a distal shaft member pivotably coupled at an articulation joint. The ultrasonic transducer assembly may comprise an ultrasonic transducer acoustically coupled to the ultrasonic blade. The ultrasonic transducer assembly may be positioned distally from the articulation joint.

A surgical end effector includes a clevis and two jaws rotatably coupled to the clevis. A rocking pin in the form of a solid of revolution is pivotally supported by the clevis. The rocking pin may be pivotally supported by the clevis at the midpoint between the first and second ends. The opposite ends of the rocking pin engage the jaws to constrain the jaws to have opposite motions around the axes of rotation of the jaws. The clevis may be coupled to an elongate shaft to provide an endoscopic instrument. The first and second jaws may be electrically isolated from one another for electrocautery and the rocking pin may be formed from a non-conductive material or electrically isolated from the first and second jaws by electrically non-conductive liners. The jaws may be opened and closed by pushing and pulling on wires coupled to the jaws.

An end effector of a surgical tool may include a housing, a jaw support shaft, jaw members, an articulation member, and cam pulleys. The jaw members may be supported on the support shaft and may be pivotable about a pivot axis. The articulation member may have a slot and include articulation pins extending from it that are coupled to the jaw members. The slot may be adapted to receive the jaw support shaft to support the articulation member between the jaw members. The articulation member may be rotatable about the jaw support shaft to articulate the jaw members relative to the longitudinal axis. The cam pulleys may be mounted to the housing and coupled to the jaw members. The cam pulleys may be rotatable about the pivot axis to pivot the pair of jaw members between open and closed conditions.

An end effector of a surgical tool may include a housing, a jaw support shaft, jaw members, an articulation member, and cam pulleys. The jaw members may be supported on the support shaft and may be pivotable about a pivot axis. The articulation member may have a slot and include articulation pins extending from it that are coupled to the jaw members. The slot may be adapted to receive the jaw support shaft to support the articulation member between the jaw members. The articulation member may be rotatable about the jaw support shaft to articulate the jaw members relative to the longitudinal axis. The cam pulleys may be mounted to the housing and coupled to the jaw members. The cam pulleys may be rotatable about the pivot axis to pivot the pair of jaw members between open and closed conditions.

A deployment mechanism for selectively deploying and retracting an energizable member and/an insulative member relative to an end effector assembly of a surgical instrument includes one or more actuators, a clutch assembly, and a drive assembly. The clutch assembly is configured to couple to the actuator(s) to provide rotational motion in the first direction in response to such rotation of the actuator(s) and to decouple from the actuator(s) in response to rotation thereof in the second direction. The drive assembly is operably coupled to the clutch assembly and is configured to convert the rotational motion provided by the clutch assembly into longitudinal motion to translate the energizable member and/or insulative member from a storage position to a deployed position and to translate the energizable member and/or the insulative member from the deployed position back to the storage position.

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.