Devices for approximating multiple tissue edges internal to a body are disclosed.

Devices for approximating multiple tissue edges internal to a body are disclosed.

Devices for approximating multiple tissue edges internal to a body are disclosed.

A surgical instrument apparatus for performing a surgical procedure within a body cavity of a patient is disclosed and includes an elongate manipulator having a distal end for receiving an end effector and including a plurality of control links extending through the manipulator operable to cause movement of the distal end in response to movement of the control links in a longitudinal direction. An actuator chassis is disposed at a proximal end of the manipulator and includes a plurality of actuators slidingly mounted within the actuator chassis for linear movement in the longitudinal direction. Each actuator is coupled to a control link and adjacently disposed about a curved periphery of the actuator chassis. An outwardly oriented portion couples a drive force to the actuator to cause movement of the control link.

Apparatus for performing a minimally-invasive procedure, the apparatus comprising: a shaft having a distal end and a proximal end; a monopolar knife assembly attached to the distal end of the shaft, the monopolar knife assembly comprising a knife; a handle attached to the proximal end of the shaft; wherein the shaft comprises a flexible portion and an articulating portion, wherein the flexible portion extends distally from the handle and the articulating portion extends distally from the flexible portion; wherein at least one articulation cable extends from the handle to the articulating portion, such that when tension is applied to the at least one articulation cable, the articulating portion deflects; wherein an actuation element extends through the shaft from the handle to the knife, such that when the actuation element is moved, the knife is moved; and wherein the actuation element transmits electrical power from the handle to the knife.

A surgical instrument assembly is provided. In some embodiments, an example surgical instrument assembly includes a surgical instrument configured to pass through a guide tube having a proximal end and a distal end. The surgical instrument can include one or more arms configured to extend from the intermediate position, each arm having one or more joints positioned along the arm and an end effector attached at the distal end of each arm. The surgical instrument assembly can include a control assembly positioned at the proximal end and configured to control the movement of the joints and the end effectors.

Trocar components and methods of use are described, wherein the trocar components are configured to provide access to intraperitoneal space via the rectouterine pouch to surgical tools, which optionally include one or more surgical robot members. The surgical tools are optionally 5 mm or more in diameter. In some embodiments, a cannula part has a lumen sized to provide to a plurality of the surgical tools simultaneous transvaginal access to the intraperitoneal space via the rectouterine pouch. In some embodiments, an incision sized to receive a distal aperture of the cannula is created, optionally using one or two dilators. The dilators are sized to create (optionally starting from a puncture by a needle 2 mm in diameter or less) an oblong aperture. In some embodiments, the oblong aperture is at least twice as wide across a long diameter as across a short diameter.

A device for laparoscopically approximating edges of a tissue opening toward each other for surgical attachment, the device including a first tissue engaging component, and a second tissue engaging component, a spreader component for moving the first tissue engaging component away from the second tissue engaging component, and a control for moving the first tissue engaging component away from the second tissue engaging component. Related apparatus and methods are also described.

Example embodiments relate to surgical devices, systems, and methods. The system may include a port assembly. The port assembly may be for use with a surgical arm assembly having a surgical arm and elongated anchor section. The port assembly may include a first main body having an elongated body and a main channel. The main channel may be formed by a portion of an interior surface of the elongated body. The main channel may extend between the proximal and distal ends of the elongated body. The first main body may include an instrument gate secured at a proximal end of the main channel. The instrument gate may include an expandable opening configured to be in a persistently closed position. The expandable opening may be configurable to adaptively expand to a shape of a cross-section of a surgical arm when the surgical arm is inserted through the expandable opening.

The disclosure provides a surgical apparatus comprising: a steerable member that is bendable and comprises a plurality of bending segments with channels therein; and a plurality of bending actuation wires that are arranged to pass through the steerable member and cause the steerable member to bend, the steerable member comprising at least one outwardly opening lumen through which the bending actuation wires pass.