Fluorescence imaging with reduced fixed pattern noise is disclosed. A method includes actuating an emitter to emit a plurality of pulses of electromagnetic radiation and sensing reflected electromagnetic radiation resulting from the plurality of pulses of electromagnetic radiation with a pixel array of an image sensor to generate a plurality of exposure frames. The method includes applying edge enhancement to edges within an exposure frame of the plurality of exposure frames. The method is such that at least a portion of the plurality of pulses of electromagnetic radiation emitted by the emitter comprises one or more of electromagnetic radiation having a wavelength from about 770 nm to about 790 nm.

A cannula assembly includes a housing, an elongate shaft extending from the housing, and a lens cleaning assembly detachably coupled to a distal end portion of the elongate shaft. The elongate shaft defines a lumen therethrough. The lens cleaning assembly includes a base having an annular configuration and defines an aperture in communication with the lumen of the elongate shaft, a cover pivotably coupled to the base, and a spring biasing the cover towards the closed configuration. The cover is transitionable between a closed configuration, in which, the cover closes the aperture of the base, and an open configuration, in which, the cover is spaced apart from the aperture. The cover has a cleaning surface facing the aperture of the base in the closed configuration.

Provided are a capsule endoscope apparatus for supporting a lesion diagnosis and a lesion diagnosis supporting method using the same. The capsule endoscope apparatus for supporting lesion diagnosis includes an imaging unit configured to capture one or more images of an inside of a body, a control unit configured to detect a suspected lesion region in the images and perform a precision diagnosis procedure when a suspected lesion region corresponding to a value equal to or greater than a certain threshold is detected, an image processing unit configured to process the images in the precision diagnosis procedure, and a communication module configured to transmit and receive processed images to another capsule endoscope apparatus or a terminal by using a wireless communication method.

An instrument for endoscopic applications, including a tubular member having a handling end portion having a flexible portion and actuating devices located at the other end portion, and longitudinal elements for transferring the movement of the actuating devices to the handling end portion resulting in a change of orientation thereof, whereby the handling end portion includes at least two independent flexible portions, whereby the actuating end portion has a corresponding number of actuating devices, and whereby each actuating device is connected by its own set of longitudinal elements to a part of the handling end portion for effecting a change of orientation of one of the flexible portions.

A medical system includes a medical device and an end cap. The medical device includes a handle, including an actuation device, and a shaft extending from the handle. A distal end of the shaft includes a tab, and the tab is movable based on movement of the actuation device. The end cap includes a modular camera assembly. The modular camera assembly includes a camera, a support, an arm, and a cavity. The tab is coupleable to the modular camera assembly via the cavity, and movement of the tab controls a position of the support and the camera.

A keypad includes a support, a snap disk on a first side of the support transformable from a released state to a loaded state, a cover forming a seal over the first side, a pocket in the cover, a magnet and a plunger disposed in the pocket, the plunger adapted to engage and transform the snap disk to the loaded state, a magnetic field sensor on a second side of the support, the second side opposite the first side and logic circuitry adapted to obtain a value of a strength of a magnetic field from the sensor, compare the value against a predetermined threshold value that corresponds at least approximately to the strength of a magnetic field, and when the plunger has transformed the snap disk to the loaded state and the value reaches or exceeds the threshold value, output a signal indicating that a key press occurred.

Endoscopes of this disclosure, such as colonoscopes, provide a broader field of view and allow extended access of surgical tools, and also enable efficient packing of all necessary elements in the tip section, while maintaining their functionality. Methods and systems of this disclosure include for capturing and displaying still and video images using an endoscope corresponding to a left-side looking viewing element, a front-looking viewing element, and a right-side looking viewing element of an endoscopic tip generated in a native aspect ratio.

The endoscopic cleaning and lubrication system is a mechanical structure. The endoscopic cleaning and lubrication system is a medical device. The endoscopic cleaning and lubrication system clamps an endoscope to a working surface, such as an operating table, such that the endoscope can be cleaned and lubricated before use. The endoscopic cleaning and lubrication system comprises an endoscope clamp, a clamp mount, a gooseneck tube, and a table clamp. The gooseneck tube attaches the clamp mount to the table clamp. The table clamp attaches the endoscopic cleaning and lubrication system to the working surface. The clamp mount attaches the endoscope clamp to the gooseneck tube. The endoscope attaches to the endoscope clamp. The endoscope clamp holds the endoscope in a fixed position relative to the endoscopic cleaning and lubrication system. The gooseneck tube is a flexible structure that allows for the repositioning of the endoscope clamp.

The subject disclosure is directed to an articulated medical device having a sensor for detecting outside movements applied upon the medical device while in a subject or patient, wherein the device is capable of maneuvering within the subject or patient while taking the outsides movements into consideration.

An invasive interventional device or probe for use in an interventional medical procedure includes a control handle operably connected to an imaging system and an insertion tube. The body having an exterior cross-sectional shape and defining an interior with an interior cross-sectional shape. The body is formed with a pair of opposed side panels, a pair of opposed end panels joining opposite ends of the pair of side panels, a top panel disposed over and joined to the pair of side panels and the pair of end panels and a bottom panel located opposite the top panel and joined to the pair of side panels and the pair of end panels with one or more control elements disposed on the body that control the operation of the interventional device. In addition, the exterior cross-sectional shape of the body conforms to a space defined within a hand in a relaxed grip position.