Disclosed is a flexible surgical instrument system, comprising a distal structural body comprising at least one distal structural segment each comprising a distal spacing disk, a fixing disk and structural backbones; a proximal structural body comprises at least one proximal structural segment each comprising a proximal spacing disk, a proximal fixing disk and structural backbones; a plurality of cable transmission mechanisms each comprising a gear set and a pulley-cable part, the gear set being operable to transfer a rotational motion to the pulley-cable part; and a driving unit comprising a motion transmission part comprising a plurality of proximal segment turning transmission chains to convert a rotational output into mutually reversed rotational motions, and transfer one of the mutually reversed rotational motions to one of the gear sets.

A monitoring system includes an endoscope shape detection apparatus configured to detect a shape of an insertion section of an endoscope and a movement detection apparatus configured to detect a movement of a hand that operates the endoscope.

A driving force transmission mechanism for medical devices, includes a tubular portion including: an opening edge portion which allows a support portion of a drive shaft to be supported at an output end in a state where at least a part of the output end is accommodated in the tubular portion; and a first adjustment section which is configured to fix a gear train in a state where the drive shaft is inserted into the tubular portion and a distal portion of the drive shaft is arranged at a predetermined position where a driven portion is able to be driven and a state where a position of the output end of the gear train is adjusted relative to a position of the support portion of the drive shaft.

Systems and methods for guided endoscope navigation include a registration module (118) configured to, using a processor, register a first set of images (112) with a second set of images (114) of an endoscope (102). A selection module (120) is configured to receive selected areas of interest on the first set of images and transform the selected areas of interest to an endoscope coordinate frame. A guidance module (122) is configured to overlay guidance tools onto the second set of images to permit a user of the endoscope to navigate to the selected areas of interest.

An insertion device includes a rotor rotating around a first revolution axis, and an assist tool attached to an insertion section with covering the rotor from an outer peripheral side. An assist tool rotates together with the rotor around a second revolution axis when press force is applied from a first protrusion of the rotor to a second protrusion of the assist tool by rotating of the rotor. The first revolution axis of the rotor and the second revolution axis of the assist tool move closer to each other when the rotor and the assist tool are rotating together.

According to one aspect, an endoscope system may include a shaft having a proximal end and a distal portion configured for insertion into a subject. The distal portion may have a distal end. The shaft may also include a lumen extending between the proximal end and the distal end. The lumen may be configured to receive an instrument extendable through the lumen of the shaft. The endoscope system may also include a visualization system coupled to the shaft for visualizing a region distal to the distal end of the shaft. The endoscope system may also include a handle coupled to the proximal end of the shaft. The handle may be configured for gripping by a user. The handle may include a shaft control system for controlling operation of the shaft. The handle may also include an instrument control system for controlling operation of an instrument extendable through the shaft.

Exemplary aspects of a medical instrument system are disclosed. The system may have a support frame movably coupled to a patient table, the support frame having a computer display support, and an endoscope holder, wherein the computer display support and the endoscope holder are coupled to move together as a single unit. In some aspects, the system includes a computer display device, and an endoscope, wherein the computer display device and the endoscope are coupled to the support frame to move together as a single unit, and the patient table, computer display device, and the endoscope are arranged along a common longitudinal axis.

Devices for use with introducers, endoscopes and catheters, where the devices relate to an articulating mechanism that allows a working end of a medical device to be steerable in order to access or visualize targeted sites in the interior of a patient's body.

A tubular guide suitable for use as an operating channel for the passage of surgical instruments in an inch-worm-type locomoted endoscopic instrument is described. The guide is fixed to the ends of the central body of the endoscopic instrument and has an elastic and corrugated intermediate portion so as to follow the elongations and the contractions of the central body of the endoscopic instrument without creating an obstacle to the passage of instruments.

Systems and methods of recentering an input control include a control unit configured to suspend teleoperated control of an end effector by the input control in response to a recentering request, determine a recentering move for the input control to provide positional and orientational harmony between the input control and the end effector, execute the recentering move, and reinstate teleoperated control of the end effector by the input control. In some embodiments, to determine the recentering move the control unit is configured to determine one or more first positions associated with the end effector, map the first positions to a view coordinate system, map the first positions from the view coordinate system to a console workspace coordinate system, and determine one or more second positions for one or more control points on the input control, the control points corresponding to the mapped first positions in the console workspace coordinate system.