A flexible endoscope for insertion into the human body includes a flexible section arranged in a distal end region of the endoscope. The endoscope further includes a tip segment distally adjoining the flexible section, the tip segment being controllable by at least one tension cord. A skeleton is formed in a flexible controllable section with guide elements that are movable relative to one another, each of which guides at least one tension cord laterally.

Several embodiments of the present invention are generally directed to medical visualization systems that comprise combinations of disposable and reusable components, such as catheters, functional handles, hubs, optical devices, etc. Other embodiments of the present invention are generally directed to features and aspects of an in-vivo visualization system that comprises an endoscope having a working channel through which a catheter having viewing capabilities is routed. the catheter may obtain viewing capabilities by being constructed as a vision catheter or by having a fiberscope or other viewing device selectively routed through one of its channels. The catheter is preferably of the steerable type so that the distal end of the catheter may be steered from its proximal end as it is advanced with the body. A suitable use for the in-vivo visualization system includes but is not limited to diagnosis and/or treatment of the duodenum, and particularly the biliary tree.

Disclosed are an endoscope handle and a driving apparatus. The driving apparatus includes a motor module, the motor module being provided with a protruding motor shaft; a starting sliding block connected to the motor shaft and capable of being driven by the motor shaft to move along a straight line, the starting sliding block being provided with a first coupling portion, and the first coupling portion being in coupling contact with a follow-up sliding block externally disposed so as to drive, by the follow-up sliding block, a bending control wire of an endoscope to be tightened and released; a force sensor disposed on the motor module and configured to measure a tensile force borne by the bending control wire and generate a stress signal; and a controller communicatively connected to the motor module and the force sensor and configured to adjust the output of the motor module.

An endoscope includes a flexible insertion tube and a bending portion controllable from a proximal side and being distally connected to the insertion tube. The bending portion includes a sleeve in which at least one pull rope runs for a pivoting movement of the bending portion, wherein the at least one pull rope is anchored to the distal end of the bending portion. A separating element dividing the cross-section of the sleeve into at least two separate chambers is arranged in the longitudinal direction of the sleeve. In one of the at least two chambers separated by the separating element, a pull rope of the at least one pull rope is arranged in the longitudinal direction of the sleeve for pivoting movement of the bending portion.

An endoscopy system that includes a computer system with a high definition display monitor and a handheld portion. The handheld portion includes a re-usable handle portion and a single use portion that is configured to be disposed of following a single use. The single-use portion includes an elongated cannula with an imaging module and illumination modules at its distal tip. The handheld portion includes multiple sensors that can detect and measure rotation of the cannula relative to the handle portion, and rotation of the entire handheld portion. The sensor data is used to correctly orient and display images captured by the imaging module onto the high definition display monitor.

The various inventions relate to robotic surgical devices, consoles for operating such surgical devices, operating theaters in which the various devices can be used, insertion systems for inserting and using the surgical devices, and related methods.

Provided is an endoscope including a separable probe. The endoscope includes a handle unit and a probe unit detachably mounted on the handle unit. The handle unit includes a first connector reciprocally movable by an adjustment knob. The probe unit includes a probe deformable in response to movement of a wire and a second connector coupled to an end of the wires and detachably coupled to the first connector.

A medical device comprising a shaft, a handle including a proximal portion and a distal portion, wherein the distal portion is fixed to a proximal portion of the shaft, and a channel extending from the handle into the shaft, wherein the channel includes a proximal channel and a distal channel, the proximal channel being rotatable relative to the distal channel and aligned with the distal channel throughout rotation of the proximal channel, wherein the proximal portion includes the proximal channel and the distal portion includes the distal channel, wherein the distal portion is rotatable relative to the proximal portion of the handle, and the shaft is configured to rotate with the distal portion of the handle.

A medical system comprises: an endoscope comprising a joint; and a drive device that generates a driving force that bends the joint. The endoscope comprises a first tube comprising the joint, a second tube, a connecting portion that rotatably connects the first tube and the second tube about a rotation axis extending in longitudinal direction of the endoscope, and an attachment or detachment portion that connects the second tube and the drive device so that the driving force can be transmitted. The drive device bends the joint by transmitting the driving force to the joint via the second tube, the connecting portion, and the first tube.

A medical system includes an endoscope configured to include an insertion portion inserted into a body cavity, a drive device configured to be detachably connected to the endoscope and electrically drive the endoscope, and a controller configured to be communicably connected to the drive device and to which an operation for electrically driving the endoscope is input, in which the insertion portion includes a first joint and a second joint configured to be independently driven and controlled by the drive device based on the operation input to the controller.