An articulated arm for support of an extended flexible medical instrument includes: a segment rotationally mobile around an axis of rotation, where the mobile segment can either be rotationally locked or unlocked, a handgrip including: a distal holding part to be hand held, a proximal support part connecting the distal holding part to the remainder of the structure, and an actuator on the distal holding part locking and unlocking mobility of the segment in rotation around the axis. The locking and unlocking actuator extends over the main part of the length of the distal holding part such that: pressure of the user's hand griping the distal holding part directly creates contact with the actuator, sufficient for automatically unlocking mobility of the segment in rotation and release of the distal holding part terminates contact with the locking and unlocking actuator, sufficient for automatically locking mobility of the segment in rotation.

A surgical device includes a jaw assembly defining a first longitudinal axis and including a first jaw and a second jaw moveable relative to the first jaw; an elongated body defining a second longitudinal axis and coupled to a proximal end of the jaw assembly, wherein the jaw assembly is configured to articulate about an articulation axis transverse to the second longitudinal axis relative to the elongated body; and a handle assembly coupled to a proximal end of the elongated body and including at least one motor mechanically coupled to the jaw assembly and a control assembly including a first control button and a second control button, wherein actuation of the first control button moves the second jaw in approximation relative to the first jaw and actuating the second control button moves the second jaw away from the first jaw, and actuating the first and second control buttons moves the jaw assembly to a centered position in which the first and second longitudinal axes are substantially aligned, the handle assembly further includes an illumination member configured to output a light pattern indicative of a status of the surgical instrument.

A surgical device is provided. The surgical device includes a jaw assembly defining a first longitudinal axis and including a first jaw and a second jaw moveable relative to the first jaw; an elongated body defining a second longitudinal axis and coupled to a proximal end of the jaw assembly, wherein the jaw assembly is configured to articulate about an articulation axis transverse to the second longitudinal axis relative to the elongated body; and a handle assembly coupled to a proximal end of the elongated body and including at least one motor mechanically coupled to the jaw assembly and a control assembly including a first control button and a second control button, wherein actuation of the first control button moves the second jaw in approximation relative to the first jaw and actuating the second control button moves the second jaw away from the first jaw, and actuating the first and second control buttons moves the jaw assembly to a centered position in which the first and second longitudinal axes are substantially aligned, the handle assembly further includes an illumination member configured to output a light pattern indicative of a status of the surgical instrument.

A surgical stapling device includes an anvil assembly and a replaceable cartridge assembly. The cartridge assembly includes a knife blade and upper and lower alignment pins for retaining tissue between anvil and cartridge assemblies to ensure that the knife blade cuts cleanly through tissue. The cartridge assembly includes a cartridge body having guide structure for guiding the cartridge assembly onto a clamp slide assembly of the stapling device.

An exemplary embodiment provides a locking device (10) which is designed to be arranged in an actuation unit (4) of a surgical instrument (1) which has a hollow shaft (2) with the actuation unit (4) arranged at a proximal end (3) of the shaft (2) and having a tool (7) at the distal end (5) of the shaft (2), which can be actuated by means of an instrument insert (8) which can be movable stored axially in the direction of a main instrument axis (A) in the shaft (2). The locking device (10) has an engagement element and an actuation device with which the engagement element can be transferred from a release position into a locking position. According to an exemplary embodiment, the engagement element is a locking bolt (15) which longitudinal axis (B) runs perpendicular to the main axis (A) of the instrument and which has an engagement section (15a) for engagement with the instrument insert (8) at a first end and a guide section (15b). The locking bolt (15) can be moved in two directions of movement by means of the actuation device.

An apparatus for insertion of a medical device in the skin of a subject is provided, as well as methods of inserting medical devices. Embodiments include removing a substantially cylindrical cap from an inserter to expose a substantially cylindrical sleeve, removing a cover from a substantially cylindrical container holding sensor components, and fitting the sensor components into the inserter.

An apparatus for insertion of a medical device in the skin of a subject is provided, as well as methods of inserting medical devices. Embodiments include removing a substantially cylindrical cap from an inserter to expose a substantially cylindrical sleeve, removing a cover from a substantially cylindrical container holding sensor components, and fitting the sensor components into the inserter.

A foot pedal for a user interface of a robotic surgical system includes a frame, a lever, and a sensor system. The lever is coupled to the frame and is pivotable relative to the frame between an initial position and a fully actuated position. The sensor system has a first element associated with the frame and a second element that is associated with the lever. The sensor system is configured to determine the position of the lever relative to the frame.