An endoscope includes a main unit and a shaft, connected to the main unit, which extends along a longitudinal axis. The shaft includes a jacket tube, an inner tube for receiving an objective lens, and a bundle of fibre-optic light guides. The inner tube includes, at a distal end, an inner tube head which includes a first bearing section and a second bearing section, which is connected to the first bearing section by a connecting element. The first bearing section includes a first bearing surface, against which the bundle of fibre-optic light guides abuts, and the second bearing section includes a second bearing surface, against which the bundle of fibre-optic light guides abuts, wherein, to align the bundle of fibre-optic light guides at the distal end, an area of the first bearing surface and/or an area of the second bearing surface run non-parallel to the longitudinal axis.

An endoscope connector device that can prevent infiltration of moisture into a sheathing member, which occurs due to a difference in a thermal expansion factor between the resin sheathing member and a metal extension member, is provided.

The connector device includes a metal internal member 42, a metal light guide rod 12 and metal fixing bases 36A and 36B, which are connected to the internal member 42, a resin sheathing member 20 that accommodates the internal member 42 and includes leading-out holes 26C, 38A, and 38B, which lead the light guide rod 12 and the fixing base 36A, 36B to the outside, and fluoro rubber O-rings 30, 40A, and 40B, which are provided on the light guide rod 12 and the fixing bases 36A and 36B, the O-rings 30, 40A, and 40B being respectively placed in gaps between the light guide rod 12 and the fixing bases 36A and 36B and the leading-out holes 26C, 38A, and 38B and sealing the inside of the sheathing member 20.

A surgical access device includes a housing, a tubular member extending from the housing, a valve disposed on the housing, and a tip member at a distal end of the tubular member. The housing includes a seal and the tubular member includes a plurality of lumens extending therethrough. The valve is fluidly coupled with a first lumen of the plurality of lumens and the tip member includes a first port that is aligned and fluidly coupled with the first lumen of the plurality of lumens. The first port is configured to direct a fluid towards a predetermined location.

Embodiments of the present disclosure are directed to apparatuses, devices, and methods for locks for endoscopic accessories. In one implementation, an adjustable lock for an endoscopic accessory includes a body slidably mounted upon a rail of the endoscopic accessory, and an arm extending about a portion of the body. The arm may be connected to the body and pivotable relative to the body between a closed position and an open position. In the closed position, teeth on an inner surface of the arm may engage a toothed rack on the rail such that the adjustable lock is secured to the rail. In the open position, the teeth on the inner surface of the arm may be clear of the toothed rack such that the lock may slide relative to the rail.

An endoscopic clip device including a clip, a treatment instrument body comprising a sheath, an operation wire, and a distal connection portion, a sleeve accommodated inside the sheath and accommodating the connection portion in distal portion of the wire such that portion of inner diameter of the sleeve is smaller than outer diameter of the locking portion when the connection portion is drawable from the accommodation portion. The sleeve has diameter enlargement portion on distal side of the sleeve and elastically self-openable, a diameter reduction step portion on proximal side of the enlargement portion, and a sleeve body positioned on the proximal side of the enlargement portion from the step portion and having radial rigidity higher than that of the enlargement portion, and the inner diameter of the sleeve body is smaller than the outer diameter of the locking portion when the connection portion is drawable from the accommodation portion.

A medical device comprises an end effector for performing a medical procedure, a first connector, and a second connector. The first connector comprises a housing, a first interface, and a second interface. The first interface is coupled to the housing and includes a rod through which a first operational channel extends. The second interface is coupled to the housing and includes a second operational channel. The second connector comprises a housing, a first socket, and a second socket. The housing comprises a cavity bounded by an inner surface including a back surface. The first socket is sized and shaped to receive the rod; the second socket is sized and shaped to receive the second interface and projects from the back surface. The rod engages with the first socket to at least partially align the second interface with the second socket before the second interface engages with the second socket.

To improve the quality of transmission of a signal from an image sensor to a camera controller of an endoscopy arrangement by a cable while maintaining electrical safety standards, a first circuitry arrangement used to transmit the signal within the cable includes galvanic isolation from a second circuitry arrangement used to further process the signal within the camera controller. The galvanic isolation is formed downstream of a proximal end of the cable in the signal direction, and the first circuitry arrangement has a, preferably passive, impedance matching circuit, for example arranged at the proximal end of the cable or in the camera controller. This impedance matching circuit is configured to compensate signal distortions, which arise during the transmission of the signal that is produced by the image sensor to the camera controller, preferably such that a frequency spectrum of the signal produced by the image sensor can be reproduced.

In some embodiments, a visualization device for a robotic surgery apparatus can include a housing configured to be removably attached to a mounting interface of the apparatus and be positioned adjacent an insertion device of the apparatus. The housing can include first and second openings positioned on an exterior of the housing. The housing can include a substantially flexible camera tube with a first end attached to the housing and a second end including at least one camera. The second end can be inserted through the first opening in the housing, pass through interior of the housing, and exit the housing through the second opening in the housing. The second end can extend away from the housing toward a region of interest outside the housing or retract away from the region of interest and back toward the housing. The camera tube can form a loop around a portion of the housing.

An image calibration inspection tool includes: a plurality of substantially rectangular markers, two orthogonal sides of which are connected by an arc-shaped curve; and a calibration chart in which the plurality of markers are formed on a metal plate through machining, laser marking, or the like, wherein two of the markers in a diagonal direction are separated by a predetermined distance.

An ocular device for a surgical instrument, the surgical instrument having an optical window frame and an optical assembly arranged in an interior space of the surgical instrument, the ocular device including: an ocular window separated from the optical assembly by a space; a holder configured to be connected to the ocular window frame; and at least one elastic element, wherein in a connected state, the at least one elastic element transmits a clamping force from the holder to bias the ocular window towards the space.