An endoscope comprises a light splitting device for transmitting a first illuminating light and reflecting a second illuminating light emitted by a light source. The first illuminating light passes through a first color filter transmitting a first color. The second illuminating light passes through the second color filter transmitting a second color. The first color is different from the second color. The light splitting device combines a first incident light of the first color and a second incident light of the second color. The first incident light of the first color and the second incident light of the second color pass through an imaging lens and form images of the first color and the second color on an image sensor, respectively. A CFA (color filter array) comprising a plurality of first CFA components of the first color and a plurality of second CFA component of the second color covering the image sensor.

Single viewpoint panoramic imaging attachments for a colonoscope are disclosed that are compact in size and provide 360-degree side and rear-views in a single image. One panoramic attachment assembly includes a plurality of micro-imaging subsystems that are positioned around a central opening. Each micro-imaging subsystem includes a reflector to receive light that is reflected from a surrounding tissue, an imaging lens, and a detector to generate signals corresponding to one section of a panoramic image of the surrounding tissue. The micro-imaging subsystems are arranged to all have a common view point, and are configured to collectively form a full 360-degree image of the surrounding tissue.

There is provided herein an optical system for a tip section of a multi-sensor endoscope, the system comprising: a front-pointing camera sensor; a front objective lens system; a side-pointing camera sensor; and a side objective lens system, wherein at least one of said front and side objective lens systems comprises a front and a rear sub-systems separated by a stop diaphragm, said front sub-system comprises, in order from the object side, a first front negative lens and a second front positive lens, said rear sub-system comprises, in order from the object side, a first rear positive lens, an achromatic sub-assembly comprising a second rear positive lens and a third rear negative lens, wherein the following condition is satisfied: f.sub.(first rear positive lens)≤1.8f, where f is the composite focal length of the total lens system and f.sub.(first rear positive lens) is the focal length of said first rear positive lens.

An endoscope system includes a shaft portion having a proximal end and a distal end and defining a longitudinal axis. The system also includes a first image receiver coupled to the shaft portion. The first image receiver is directed toward a first direction to receive an image of a first portion of the interior of a lumen. The system also includes a second image receiver coupled to the shaft portion. The second image receiver is directed toward a second direction to receive an image of a second portion of the interior of the lumen. The first direction is generally opposite the second direction. The system further includes a monitor, wherein the image of the first portion and the image of the second portion are displayed simultaneously on the monitor.

An imaging device (010, 10, 110) comprises a first optical system (020, 20, 120) at a distal end of the imaging device, a second optical system (080, 80, 180) towards the proximal end of the imaging device, and a sensor (074, 74, 174) at the proximal end of the imaging device. The first and second optical systems and the sensor are aligned along a common longitudinal axis. The first optical system is or comprises one or more reflective and/or refractive optical components (24, 124; 22, 122) symmetrically and/or coaxially arranged with respect to the longitudinal axis, and the second optical system comprises one or more reflective and/or refractive optical components (24, 124; 22, 122) for focussing incident light towards the sensor. A calibration system (200) and method for calibrating such an imaging device, and a method of processing image data obtained from such an imaging device are also provided.

A compound-eye endoscope includes two or more image-capturing modules, a sub-frame, and an outer shell. The two or more image-capturing modules are formed in the same outer shape, and each of the image-capturing modules includes a lens barrel housing an optical system, an image sensor, and a sensor holding member that relatively fixes the lens barrel and the image sensor. The sub-frame relatively fixes each of the two or more image-capturing modules. The outer shell accommodates and fixes the sub-frame and the two or more image-capturing modules.

Provided herein is a tip component of a multi camera endoscope, the tip component accommodates a plurality of cameras configured to jointly provide a field-of-view (FOV) of at least about 270 degrees and a plurality of front illumination modules; wherein the tip component includes a plurality of window elements of sapphire glass soldered using a noble-metal, within respective openings on the housing thereof, wherein each of the cameras and illumination modules is positioned behind a respective window element. Further provided are methods of manufacturing the tip component and methods of using the same.

The present specification is directed towards endoscopes, such as colonoscopes, that 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. Also described are methods and systems for capturing and displaying still and video images using an endoscope corresponding to a left-side looking, a front-looking and a right-side looking viewing element of an endoscopic tip generated in a native aspect ratio.

A photodynamic treatment device treating a patient's cervix opening with light that causes selected tissue to fluoresce and imaging the tissue while the treatment is in progress without affecting the treatment.

A medical endoscopy/stereo colposcopy instrument is configured to selectively take stereo colposcopy images of a patient's uterus and endoscopy images of the patient's bladder or uterus. Any of the images can be white light images or images for a selected narrow wavelength band or fluorescence images. The images can be displayed individually or as spatially registered composite images to highlight selected features of the imaged anatomy. A cup-shaped device can be positioned at the patient's cervix and provided with a light source and a fluorescence camera module to monitor changes in fluorescence in response to a photoactivated substance.