Endoscope with contamination protection device comprising a rigid or flexible shaft, at a distal end of which optics and a lighting device are disposed, a handle adjoining the shaft, an inner sheath, which is closed at its one distal end and is optically transparent at least on the end face and which is unrolled along the shaft in the manner of a condom, at least one air tube and water tube, which terminate openly at the distal end of the inner sleeve and are connected thereto and are positioned between the shaft and inner sleeve, and a handle attachment, which is plugged onto the handle with an air and a water valve, to which the air and water tubes are connected, an outer sleeve envelops the inner sleeve and, at a proximal end of the inner sleeve, is connected in an air, water and germ-tight manner to the same.

A multifunctional visualization instrument is provided that, in certain embodiments, includes a body having a proximal end and a distal end. The multifunctional visualization instrument includes a display screen on the body and a camera stick at the distal end of the body and comprising an arm and a camera. The arm of the camera stick is sized to fit within a channel of a removable laryngoscope blade. The multifunctional visualization instrument includes a port on a surface of the laryngoscope, configured to mate with an introducer and a steering input for steering the introducer, displayed on the display screen simultaneously with an image of the patient captured by the camera.

The Vertebra Pick Device represents a new instrument to bore pilot holes in vertebra pedicles while imaging the operation with an integrated endoscope. The pilot holes are bored to provide entry points for pedicle screws that serve as anchor points for spine stabilizing rods to treat several spine conditions. The device consists of a metal body that terminates in a tapered incision tip, an endoscope that runs inside said metal body, a handle to drive the device into pedicle boney tissue and a fiber optics bundle assembly that enters the device handle and is used to connect to imaging, illumination, irrigation and suction devices to enable the endoscopic functions of the device. The fiber optics bundle assembly connects to an imaging camera that provides an electrical signal to a monitor to view the operation in real time.

An external mechanism for endoscope includes: an abutment surface that is a first surface configured to cover a knob arranging surface at which a second bending operation knob is arranged in an operation portion of an endoscope; a wheel configured to engage with the second bending operation knob arranged at the knob arranging surface; a motor configured to generate a driving force for rotating the wheel; a housing case that houses the wheel and the motor; a case attaching/detaching and fixing section for detachably attaching the housing case to the operation portion of the endoscope; and a locking member provided at the housing case and configured to be locked on the knob arranging surface of the endoscope and a large-diameter portion end face adjacent to the knob arranging surface in the operation portion of the endoscope.

An apparatus for capsule endoscopy, the apparatus comprising a capsule that comprises: at least one inflatable bladder configured to form a toroid having a hole and an outer periphery when inflated; a plurality of continuous tracks, each extending through the hole and around the outer periphery of the at least one inflatable bladder; and a propulsion system configured to drive the continuous tracks; wherein the capsule is configured such that the continuous tracks slip over the at least one inflatable bladder when driven by the propulsion system.

An engagement detection system (EDS) adapted to be positioned between, and in electrical communication with, an electrosurgical generator and an electrosurgical instrument. The EDS adapted to electronically detect that the electrosurgical instrument is inserted into a trocar cannula, and thereafter deliver electrosurgical energy to the instrument. A method of operating an endoscopic electrosurgical instrument inserted into a trocar cannula, as well as a switch assembly are also provided.

Embodiments of the present disclosure are directed to cannulating devices and methods for exchanging cannulating devices in an endoscopic procedure. In one implementation, an apparatus for endoscopic operations is described. The apparatus includes a cannulating device to be introduced through an internal lumen of an endoscope via a biopsy port. The cannulating device has an elongated body. The elongated body includes a guidewire lumen configured to receive a guidewire therein, and a slit extending over at least a portion of the length of the elongated body from a distal tip to a proximal position of the elongated body.

A camera system for monitoring the inside of a body having excellent work efficiency is suggested. The camera system for monitoring the inside of a body includes: a cable (12) in which one end is connected to the imaging part; a first auxiliary tool (8) which is connected to the other end of the cable (12); and a second auxiliary tool (7) which includes a holding unit (7g) which holds a held unit (8g) provided in the first auxiliary tool (8), and a rod-like unit (7x) connected to the holding unit (7g), and which draws out the held unit (8g) toward the outside of the body from the inside of the body through the inside of a tube-like device (6) of which one end is guided toward the inside of the body, in a state of being held by the holding unit (7g).

An enhanced flexible robotic endoscopy apparatus includes a main body and flexible elongate shaft. The main body comprises a proximal end, a distal end and a housing that extends to the proximal end and the housing comprises a plurality of surfaces and a plurality of insertion inlets which reside on at least one of the surface of the housing at the proximal end of the main body, through which a plurality of channels for endoscopy are accessible. Each of the insertion inlets has insertion axis corresponding thereto, along which flexible elongate assemblies are insertable, with the insertion axes of the insertion inlets being parallel to the central axis of the flexible elongate shaft at the proximal end of the flexible elongate shaft.

An elongated access device used in a medical system. The elongated access device slidably receives a medical tool and an ultrasound probe. The elongated access device includes a sheath and an intraluminal tip attached to the distal end of the sheath. The intraluminal tip includes ramp and nose donuts being spaced apart from one another and configured to be attached to one or more elongated sleeves. One or more orientation pins are engaged with the respective ramp and nose donuts and may be anchored within the sheath. The medical tool is engaged with a ramp formed in the ramp donut or a ramp received within the ramp donut. The ultrasound probe is configured to engage with the intraluminal tip so as to ensure that the medical tool directionality is oriented toward a target during a procedure.