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.

An embodiment of an illumination system for use with an endoscope includes a laser source comprising laser light emitters, an electromagnetic sensor embedded within the laser source to sense light energy, and a control circuit in electronic communication with the electromagnetic sensor and at least one emitter. The control circuit is configured to cause the laser source to pulse light between pixel readout periods. The electromagnetic sensor receives light from at least one emitter and measures an amount of electromagnetic energy generated by at least one emitter. The control circuit controls a duty cycle of the emitters based on a predetermined, known output and in response the amount of electromagnetic energy generated by at least one of the emitters and obtains a desired exposure response for images captured by the image sensor.

An operation device for an into-bore introduction device, includes: a projecting portion formed to project from a grasping section in a radial direction to a longitudinal axis of the grasping section, in a surface between a surface on which a bending operation knob is disposed and a surface on which operator's palm abuts to grasp the grasping section, in the grasping section; a pressing switch disposed on the projecting portion; and an inclined surface formed distantly by as much as a predetermined distance from the pressing switch, and in which an amount of the inclined surface to project outside in the radial direction is decreased on an insertion section side of the projecting portion.

An endoscope light source system includes a light source module, an insertion module and a light guide path. The light source system further includes a light connector which is provided on the light guide path and optically connects an auxiliary light guide path to the light guide path, such that auxiliary light is guided to the light guide path from the auxiliary light guide path which guides the auxiliary light; and an irradiation module which emits at least one of light-source light which is guided by the light guide path and the auxiliary light which is guided by the light guide path, to an outside of an endoscope as illumination light, and radiates the illumination light to a to-be-illuminated part.

A dissecting device for dissecting tissue surrounding a blood vessel in a living body. The dissecting device includes a grasping section that includes an insertion lumen. The dissecting device includes a dissecting member at the distal portion of the grasping section. The dissecting member is insertable into the living body along the blood vessel to dissect the tissue surrounding the blood vessel in the living body. The dissecting member includes a treating section and a protruding section. The treating section performs a predetermined treatment of a branch vessel branching from the blood vessel. The protruding section protrudes from the treating section in the thickness direction of the treating section. The protruding section includes a guide section configured to guide the branch vessel toward the treating section.

A guided tracheal intubation system using an autonomous modulated light source, outputting modulated illumination at a constant level, and externally applied to the subject's larynx region. An optical imaging system receives a video stream from within the subject's throat, including modulated illumination from the subject's trachea. A display control system performs signal processing on the modulated content of the images, and outputs frames of those images in which the intensity level of illumination from the trachea can be controlled without any need to change the illumination output from the modulated light source. The light source has no connection with the rest of the system, and need contain no more than a battery, a power supply circuit and a light source. It can therefore be of low cost and can be made disposable, such as in the form of an adhesive patch applied to the subject's neck.

A fluorescent type of green light source of a semiconductor in a light source apparatus for an endoscope includes a blue excitation light source device and green emitting phosphor. The blue excitation light source device emits blue excitation light. The green emitting phosphor is excited by the blue excitation light, and emits green fluorescence. A dichroic filter in a dichroic mirror cuts off the blue excitation light from an emission spectrum of mixed light of the blue excitation light and green fluorescence from the fluorescent type of green light source. Thus, illumination light with the emission spectrum of a target can be stably supplied without influence of the blue excitation light to a light amount of blue light from a blue light source of a semiconductor.

Disclosed embodiments include devices and methods for shaping, bending, and/or volumetrically reducing rigid cartilaginous structures, such as hyaline cartilage in the septum. In the case of septal cartilage, shaping, bending, or reducing the cartilage would be useful for reducing nasal obstruction or to improve the cosmetic appearance of the nose.

An probe body comprising:

one or more light sources; one or more light sensors; an x-ray detector configured to detect, using at least one of the one or more light sensors, light from a scintillator for converting extra-orally applied x-rays to light; and a lower energy light detector configured to detect, using at least one of the one or more light sensors, light from an object illuminated by at least one of the one or more light sources.

This optical scanning endoscope apparatus includes an actuator that scans light from a light source over an object with a predetermined scan cycle, a light amount detector that detects the light amount from the light source, and a controller that controls output of the light source based on the light amount detected by the light amount detector. During each scan cycle by the actuator, the controller controls the light source so as to output light according to a predetermined output change pattern, sequentially calculates an integral value of the light amount detected by the light amount detector over a predetermined time period, and controls the maximum of the change in output of the light source due to the output change pattern so that the integral value does not exceed a predetermined standard value.