Methods and apparatuses for space-optimized visualization catheters are provided. Some embodiments utilize complimentary metal-oxide-semi-conductor (CMOS) technology integrated into a CMOS camera train holder system that may be a stand-alone component for use with a visualization catheter, such as a baby endoscope, or may be fabricated/extruded as a part of the catheter itself. Some embodiments of apparatuses, methods, and equivalents thereto provide better direct visual feedback to the medical personnel performing the procedure while providing a similarly-sized outer diameter visualization catheter device having an increased space therein for additional lumens and equipment or by reducing the overall outer diameter of the visualization catheter.

An endoscope can include an elongate, manipulable shaft with a distal-end visualization element and a handle body comprising at least one control surface for manipulating a distal region of the shaft, where the handle body includes a passage through which a length of the shaft is passable, and where the handle body includes a novel connection structure configured for firmly, securely, and removably mounting the handle to a channel of another endoscope in a manner axially aligning the passage with the channel to provide a path of communication for the shaft. A dual medical endoscope system can be constructed including a first and a second medical endoscope, where the first endoscope comprises an accessory channel with a proximal mounting port providing access thereto, and where the second endoscope comprises a handle body that is securely and removably attached to the proximal mounting port.

The present disclosure relates a system and method for tissue analysis, biopsy and/or treatment. In one example, a device is disclosed that includes a light generator and a probe in optical communication with the light generator. The probe includes an outer wall having a first end and a second end opposite the first end, a plurality of receiver fibers that extend along a length of the outer wall and are positioned between the first end and the second end, and a plurality of transmitter fibers that extend along a length of the outer wall, adjacent to the plurality of receiver fibers.

An intubation system is provided including an endoscope, a laryngoscope, and a display adaptor. The endoscope includes an endoscope video camera and at least one light emitting diode at a distal end, the endoscope video camera generating an endoscope video stream. The laryngoscope includes: a laryngoscope video camera for generating a laryngoscope video stream and a button. The display adapter is configured to receive the endoscope video stream and the laryngoscope video stream and to supply the video stream to a display. The button allows user selection of which of the laryngoscope video stream, and the endoscope video stream, or both video stream to supply from the display adaptor to the display.

A medical overtube includes a long insertion unit having distal and proximal end portions; a bending unit connected to the distal end portion; an operation unit disposed at a proximal end side of the insertion unit; and a linear member having a distal end fixed to a distal end side of the bending unit and disposed movably along a longitudinal axis of the insetion and bending units. The bending unit is bent by the linear member being pulled toward the proximal end portion in response to an operation of the operation unit, the bending unit has a plurality of channels through which medical devices are passed, and the linear member in the insertion unit is disposed at a position shifted in a circumferential direction and inward in a radial direction with respect to a position of the linear member disposed in at least a part of the bending unit.

The technology disclosed herein is directed to a medical system having an endoscope, a medical manipulator, an operation input device, and an overtube used to protect the endoscope during an operation. The overtube includes an elongated distal part, an elongated proximal part, and a channel. The elongated distal part is to be inserted into a body cavity of a patient. The elongated proximal part is connected to a proximal end side of the distal part. The channel is configured to extend in a longitudinal direction through the respective distal and proximal parts and to permit insertion of a medical manipulator thereinto. The proximal part contains therein at least a portion of an expandable or bendable portion configured to be expandable in the longitudinal direction and to be bendable in a direction intersecting the longitudinal direction.

An endoscope system is provided. The endoscope system includes an insert tube and a handle. The insert tube includes a first connector, a first controller, a first parameter and an insert-tube data. The first parameter and the insert-tube data are corresponding to each other. The handle includes a second connector and a second controller. The second connector electronically connects to the first connector, and the second controller receives and accords to the first parameter to generate at least one first control signal to the first controller to control the insert tube.

An embodiment of the invention is an endoscopy system with newly designed docking block, brake control, wire tension adjustment, bending angle sensor, memory chip data storage, valve control, imaging lens cleaning, optimized lumen arrangement and distal position sensor. The docking block can have a one-touch retaining mechanism. Braking control can be accessed by the endoscopist at the hand grip or knobs. Wire tension can be relaxed or tightened in response to surgeon or endoscopist control. Bending angle sensors can protect surgical instruments. Memory chip can store usage data of the endoscope. Multiple valves can have priority control. Lenses can be cleaned with one touch of a button. Lumens can be arranged to maximize imaging and lighting angles. Position markers accompanied with sensors can position the distal end of the endoscope automatically in the optimal position.

The present invention relates to a guided endotracheal intubation endoscope. A guide catheter is used to position an endoscope and a tube for intubation of a patient. The endoscope can include a steering device for steering the endoscope in at least two directions, as well as suction, irrigation and retraction devices for maintaining a clear field of view.

A system for extending the visual capabilities and working channel of a bronchoscope including a probe having optic and/or tracking capabilities at a distal tip thereof and capable of being advanced through the working channel of a standard bronchoscope. The probe also includes a working channel through which various diagnostic and treatment tools may be advanced.