An imaging module includes: an electrical cable; an imaging device; and a flexible wiring board with wirings electrically connecting the imaging device with the electrical cable. The flexible wiring board includes: a device mounting portion on which the imaging device is mounted, and one end of the device mounting portion in a longitudinal direction has a bent portion; and a rear portion that bends and extends from the bent portion to a side opposite the imaging device. The device mounting portion has a mounting surface intersecting an axial direction of a distal end of the electrical cable, and the imaging device is mounted on the mounting surface, and the wirings extend from the mounting surface, pass through the bent portion, and connect with the electrical cable at the rear portion.

The present invention relates to an endoscope including an object, which is to be supplied with electric current, in an endoscope head of the endoscope, and a circuit board for the object to be supplied with electric current. The circuit board extends from the object, which is to be supplied with electric current, in the distal direction of the endoscope head.

Provided are an endoscope apparatus capable of reducing a diameter of a mounting portion in a case where a balloon is mounted on an insertion part of an endoscope, and the balloon. An endoscope apparatus includes an endoscope having an insertion part, and a balloon mounted on the insertion part. The balloon includes a first sleeve part, a second sleeve part, and a balloon main body. The balloon has an inner diameter of the first sleeve part, which is 1/10 or more and ½ or less of an outer diameter of the insertion part, in a pre-mounting state before the balloon is mounted to the insertion part. An inner diameter of the second sleeve part may be set to 1/10 or more and ½ or less of the outer diameter of the insertion part. Further, the inner diameter of the second sleeve part may be larger than ½ of the outer diameter of the insertion part and smaller than the outer diameter of the insertion part, and an axial length of the second sleeve part of the balloon may be set to be longer than that of the first sleeve part.

Reversibly attachable pressure-resistant cap for an endoscope sleeve, configured to seal a distal tip of the endoscope sleeve during pressurized inflation of the sleeve to assist insertion of the endoscope into the sleeve. The cap is operable to latch onto the distal tip. The cap is also configured to be easily removed from the distal tip after inflation is no longer needed.

Provided is an endoscope capable of effectively suppressing breakage of a channel while sufficiently exhibiting performance of a plurality of portions having different degrees of bending. The endoscope includes an insertion portion and a channel arranged inside the insertion portion. The insertion portion includes a bending section that is bendable based on an operation, and a flexible tube portion that is bendable by an external force unrelated to the operation. The channel includes an inner layer and an outer layer formed outside the inner layer, the inner layer is made of polytetrafluoroethylene having a solid structure, and the outer layer is made of polytetrafluoroethylene having a porous structure. A porosity of the outer layer in the bending section is smaller than a porosity of the outer layer in the flexible tube portion.

An object is to provide a balloon mounting jig capable of reducing the burden of an operation of mounting a balloon in an insertion part of an endoscope. A balloon mounting jig (100) for mounting a balloon (60) including a first sleeve part (60A), a second sleeve part (60B), and a balloon main body (60C), to an insertion part (12) of an endoscope (10) or an insertion assisting tool, the balloon mounting jig (100) including: a main body (102) formed in a hollow cylindrical shape to be folded flat and having a first opening part (104) and a second opening part (106); a pair of guide pieces (108a, 108b) that face each other and are provided in the second opening part (106). A sliding surface (120) on which an outer peripheral surface of the insertion part (12) or the insertion assisting tool is slidable is provided on inner surfaces of the main body (102) and the pair of guide pieces (108a, 108b).

Imaging devices, imaging systems, and methods are presented for determining distances, depths, and sizes of a viewed tissue or object through a visualization device. The device may include an elongated shaft and an imaging component. The imaging component may extend through the elongated shaft. The imaging component may have a lens and may be configured to capture an image of an area exterior of the elongated shaft in a field of view of the lens. A transparent cover may extend over the lens. The transparent cover may be configured to cause one or more identifiers to appear in the image. The imaging device may include or be used with a computing device to analyze image data of captured images.

A video endoscope including: an outer cladding tube, a fiber tube accommodated in the outer cladding tube, wherein the fiber tube has a housing bounding a closed space with a distal end and a proximal end, wherein a front-side window is provided at the distal end of the fiber tube, the fiber tube having an inner tube (for accommodating an imaging sensor , and a heating foil provided between the fiber tube and the inner tube. Where, the heating foil is adapted to heat the front-side window at the distal end of the fiber tube.

A disposable suction valve is provided. In some embodiments, the disposable suction valve may include a stem providing an air passage through the stem, a spring, a spring stanchion cup, and a boot. A method for manufacturing a disposable suction valve may include several steps. A stem and spring stanchion cup are molded, and a bottom end of the stem is placed through the center of a spring. The bottom end of the stem is placed through a stem opening in the spring stanchion cup, and the tabs or the spring stanchion cup are placed into recessed apertures of the stem. The boot may be over-molded on the spring stanchion cup or molded and placed onto the spring stanchion cup.

A tip part (2) for forming a tip of a disposable insertion endoscope (1) the tip part comprising: a camera insertion sleeve (28) provided within the interior spacing, the camera insertion sleeve being formed by a circumferential camera sleeve wall that extends from the distal front wall of the housing to a proximal end of the camera insertion sleeve so that the camera insertion sleeve comprises an open proximal end; a tube insertion sleeve (38) provided within the interior spacing and fixed in relation to the distal front wall, the tube insertion sleeve being formed by a circumferential tube sleeve wall that extends a total tube sleeve length S from the distal front wall of the housing to a proximal end of the tube insertion sleeve so that the tube insertion sleeve comprises an open proximal end; the circumferential housing wall comprises at least one cut-out (41) extending from the proximal end towards the distal front wall, the at least one cut-out leaving space for constructive elements within the at least one cut-out, such constructive elements comprising e.g. fixation, such as crimps, of steering wires and/or alignment elements for alignment of the tip part during manufacture. Furthermore, methods of manufacture thereof are disclosed.