An adapter assembly for selectively interconnecting a surgical end effector including at least one axially translatable drive member and a powered actuator device including at least one rotatable drive shaft is provided. The adapter assembly includes an actuation shaft configured to convert rotation of a first drive shaft of the powered actuator device into an axial translation of a first drive member of the surgical end effector. The adapter assembly further includes an elongate tube configured to convert rotation of a second drive shaft of the powered actuator device into an axial translation of a second drive member of the surgical end effector. The actuation shaft is disposed within the elongate tube, and the actuation shaft and the elongate tube translate axially independent of each other.

End effectors with redundant closing mechanisms, and related tools and methods are disclosed. The disclosed end effectors may be particularly beneficial when used for minimally invasive surgery. An example surgical tool comprises an elongate shaft having a proximal end and a distal end, a tool body disposed at the distal end of the shaft, a jaw movable relative to the tool body between a clamped configuration and an open configuration, a first actuation mechanism coupled with the jaw and operable to vary the position of the jaw relative to the tool body between the clamped configuration and the open configuration, and a second actuation mechanism coupled with the jaw. The second actuation mechanism has a first configuration where the jaw is held in the clamped configuration and a second configuration where the position of the jaw relative to the tool body is unconstrained by the second actuation mechanism.

A tissue grasping tool includes: a longitudinal-axis member; a first member and second member; a manipulation member; a first wire-shaped member protruding from the first member and being formed a first loop; and a second wire-shaped member protruding from the second member and being formed a second loop; the first wire-shaped member and the second wire-shaped member extend in a direction which gradually approaches with each other as it goes toward the distal side from a proximal side of the first and second loops; in a state of which the first member and the second member come close with each other, the second wire-shaped member passes through an inside of the first loop; and a distance between distal end portions of the first and second loops is increased according to an operation in which the first member and the second member approach.

An ultrasonic clamp coagulator assembly configured to permit selective cutting, coagulation and clamping of tissue during surgical procedures. The assembly includes a blade having a first and second tissue contact surface and a clamping mechanism, including a first and second clamp arm pivotally mounted at the distal portion of the instrument for clamping tissue between first and second tissue contact surfaces, respectively.

A hemostasis and suturing conjoined dual-clamp capable of passing through a channel of a digestive endoscope and an operation method, the dual-clamp including a handle, a clamping assembly and a driving assembly. The clamping assembly includes a clamping holder and two clamping portions, and the driving assembly is detachably connected to the clamping assembly. A hemostasis and suturing conjoined dual-clamp capable of passing through a channel of a digestive endoscope and an operation method, two clamping arms of the dual-clamp are able to individually open, clamp and close, have a function of double-sided clamping and closing a large defective wound, and are able to be conveniently separated from the driving assembly, overcoming the defects that conventional hemostatic clamps can only perform one-sided clamping, thereby it is difficult to treat defective wounds that are large or in difficult operating sites.

A surgical device with a shaft having a distal end to which a surgical instrument is mountable and a proximal end equipped for handling the instrument, wherein the shaft is hollow and the surgical instrument is mountable on inserts that are longitudinally movable in the shaft parallel to the longitudinal axis and that are diametrically opposed to each other. The shaft comprises outer and inner tubes rotatable in opposite directions with respect to the longitudinal axis, and the inserts are coupled to the outer and inner tubes to convert rotational movement of the tubes into longitudinal movement of the inserts.

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.

An improved drive shaft for controlling an end effector of surgical instrument having advantages over the prior art, specifically, the drive shaft includes two separate elongate elements, each including a flange at its proximal end for restricting the lateral movement of the drive shaft when installed within an outer shaft of the instrument. The dimensions of the flanges are such that they fit within the outer shaft with minimal clearance. This allows the drive shaft to be moved longitudinally within the outer shaft to actuate an end effector whilst minimizing any lateral movement. This consequently prevents the end effector from tilting as it is actuated. The drive members are arranged so that the flanges extend in opposite directions perpendicular to the length of the drive shaft. This helps to improve ease of assembly and provides space within the outer shaft for features such as connection wires and the like.

A surgical instrument end effector assembly includes a first jaw member defining an insulative tissue-contacting surface and first and second electrically-conductive tissue-contacting surfaces disposed on either side of the insulative surface. A second jaw member of the end effector assembly includes an ultrasonic blade body positioned to oppose the insulative surface of the first jaw member, and first and second electrically-conductive tissue-contacting surfaces disposed on either side of the ultrasonic blade body and positioned to oppose the first and second electrically-conductive surfaces, respectively, of the first jaw member. The first jaw member is movable relative to the second jaw member between a spaced-apart position and an approximated position to grasp tissue therebetween. The first and second electrically-conductive surfaces of the second jaw member are movable, independent of the first jaw member, relative to the first jaw member and the ultrasonic blade body between a retracted position and an extended position.

An adapter assembly for selectively interconnecting a surgical end effector including at least one axially translatable drive member and a powered actuator device including at least one rotatable drive shaft is provided. The adapter assembly includes an actuation shaft configured to convert rotation of a first drive shaft of the powered actuator device into an axial translation of a first drive member of the surgical end effector. The adapter assembly further includes an elongate tube configured to convert rotation of a second drive shaft of the powered actuator device into an axial translation of a second drive member of the surgical end effector. The actuation shaft is disposed within the elongate tube, and the actuation shaft and the elongate tube translate axially independent of each other.