A medical system including a support structure including a proximal link and a distal link, and a base joint coupling the proximal link of the support structure to a base, wherein the proximal link is configured to rotate about a first axis associated with the base joint. The system also includes a linkage mechanism coupling the proximal link to the distal link. The system also includes an instrument support coupled to the distal link, wherein the instrument support has an orientation relative to the base in a first configuration of the support structure, and wherein the linkage mechanism maintains the orientation of the instrument support relative to the base as the support structure is moved into a second configuration in which the support structure is rotated relative to the base about the first axis and the distal link is extended from the proximal link.

A sterile drape, a surgical system with the drape, and a draping method are provided. In one embodiment, a sterile drape includes a plurality of drape pockets, each of the drape pockets including an exterior surface to be adjacent a sterile field for performing a surgical procedure and an interior surface to be adjacent a non-sterile instrument manipulator coupled to a manipulator arm of a robotic surgical system. The drape further includes a plurality of flexible membranes at a distal face of each of the drape pockets for interfacing between outputs of an instrument manipulator and inputs of a respective surgical instrument, and a rotatable seal adapted to couple a proximal opening of each of the drape pockets to a rotatable element at a distal end of the manipulator arm.

[Object] To make the vertical and horizontal directions of an endoscope image and the vertical and horizontal directions of the screen of a monitor coincide with each other without spoiling the effective region of the endoscope image.

[Solution] A control device of an endoscope system according to the present disclosure includes: a scope rotation angle acquiring section that acquires a scope rotation angle, around an axis in an insertion direction, of a scope including an objective lens to be inserted in a body; and a rotation angle control section that controls a rotation angle, around an optical axis center, of an image sensor that captures an image provided by the scope, on the basis of the scope rotation angle.

A drape includes a first drape portion configured to receive a manipulator arm of a surgical system and a pocket coupled to a distal portion of the first drape portion. The pocket is configured to receive a manipulator of the surgical system. The pocket includes a flexible membrane positionable between an output of the manipulator and an input of a surgical instrument mountable to the manipulator. In some embodiments, the flexible membrane is located at a distal end of the pocket. In some embodiments, the flexible membrane is configured to allow an actuating force to be transmitted from the output of the manipulator to the input of the surgical instrument. In some embodiments, the pocket provides a sterile barrier between the manipulator and the surgical instrument. In some embodiments, the drape further includes a rotatable seal configured to couple a proximal opening of the pocket to the first drape portion.

A compensated constant force spring device includes a bracket, a drum rotatably supported by the bracket, and a constant force spring wound on the drum. A motor is fixed to the bracket and provides a compensating force to the drum. The motor may be located in an interior volume of the drum. A control module may coupled to the motor to control the compensating force. A position sensor may be coupled to the control module. The compensating force may be responsive to a signal from the position sensor. The constant force spring may support a load and counterbalance gravitational forces on the load. The compensating force may be adjusted when the load approaches an end of a range of travel.

A control system for a capsule endoscope is provided. The control system includes a balance arm device, a mechanical arm, a permanent magnet and a 2-DOF rotary platform. The bottom of the balance arm device is fixed, and the active end of the balance arm device connects with a boom. The bottom of the mechanical arm is fixed, and the active end of the mechanical arm connects with a spherical hinge. The 2-DOF rotary platform is fixed below the boom and the permanent magnet is located in the 2-DOF rotary platform. The spherical hinge connects to the boom, assisting the permanent magnet to move around a fan-shaped area around a subject.

A control device for a capsule endoscope is provided. The control device includes a balance arm device, a permanent magnet, a 2-DOF rotary platform and an examination bed. The bottom of the balance arm device is fixed, and the active end of the balance arm device connects with a boom. The 2-DOF rotary platform is fixed below the boom and the permanent magnet is located in the 2-DOF rotary platform. The examination bed is put below the 2-DOF rotary platform, and the area between the examination bed and the 2-DOF rotary platform is an examination area.

[Object] To make it possible to perform gravity compensation with a more compact and lightweight configuration.

[Solution] There is provided a medical support arm apparatus including: an arm section including multiple joint sections, and configured such that a medical tool is provided on a front end; an actuator at least provided in a compensated joint section that is a target of gravity compensation among the joint sections, and including a torque sensor that detects a torque acting on the compensated joint section; and a gravity compensation mechanism that imparts to the compensated joint section a compensating torque in a direction that cancels out a load torque due to a self-weight of the arm section acting on the compensated joint section.

An entry guide tube and cannula assembly, a surgical system including the assembly, and a method of surgical instrument insertion are provided. In one embodiment, the assembly includes a cannula having a proximal portion that operably couples to an accessory clamp of a manipulator arm, and a distal tubular member coupled to the proximal portion, the tubular member having an opening for passage of at least one instrument shaft. The assembly also includes an entry guide tube rotatably coupled to the proximal portion of the cannula, the entry guide tube including a plurality of channels for passage of a plurality of instrument shafts, wherein the entry guide tube is rotatably driven relative to the proximal portion of the cannula by rotation of at least one instrument shaft about a longitudinal axis of the entry guide tube.

A delivery arm assembly of a medical system includes a head having an end arranged to face a reference plane and a multistage slide mechanism coupled to the head. The multistage slide mechanism includes a long-range slide mechanism configured to move the head in a direction toward the reference plane and a short-range slide mechanism coupled with the long-range slide mechanism. The short-range slide mechanism is configured to stop further movement of the head in the direction toward the reference plane in response to a resistive force against movement of the head toward the reference plane.