Provided is a technique for further reducing the scale of an endoscope system. An optical distribution connector according to the present disclosure discloses an optical distribution connector (additional connector) which includes an optical connector portion that is configured to be attachable to and detachable from a processor and realizes an optical connection with the processor, a plurality of medical device mounting portions, each of which is attachable to and detachable from a medical device, and at least one optical element that distributes light emitted from a light source included in the processor in each direction of the plurality of medical device mounting portions. In this optical distribution connector, at least one optical element has a spectral distribution wavelength characteristic defined by the light transmittance and the light reflectance for each of the plurality of wavelength bands of light (see FIG. 5).

Several embodiments of the present invention are generally directed to medical visualization systems that comprise combinations of disposable and reusable components, such as catheters, functional handles, hubs, optical devices, etc. Other embodiments of the present invention are generally directed to features and aspects of an in-vivo visualization system that comprises an endoscope having a working channel through which a catheter having viewing capabilities is routed. the catheter may obtain viewing capabilities by being constructed as a vision catheter or by having a fiberscope or other viewing device selectively routed through one of its channels. The catheter is preferably of the steerable type so that the distal end of the catheter may be steered from its proximal end as it is advanced with the body. A suitable use for the in-vivo visualization system includes but is not limited to diagnosis and/or treatment of the duodenum, and particularly the biliary tree.

The invention provides systems and methods for imaging a sample. In various embodiments, the invention provides a system comprising an image sensor, a laser for emitting excitation light for an infrared or near-infrared fluorophore, a visible light source, a notch beam splitter, a notch filter, a synchronization module, an image processing unit, an image displaying unit, and light-conducting channels. In various embodiments, the present invention provides a system comprising an image sensor, a laser for emitting excitation light for an infrared or near-infrared fluorophore, a laser clean-up filter, a notch filter, a white light source, an image processing unit, an image displaying unit, and light-conducting channels. In accordance with the present invention, the image sensor can detect both visible light and infrared light.

The invention relates to a system for endoscopic imaging comprising a light source configured to generate light and an, in particular rigid, insertion portion configured to be inserted into an object and comprising a distal end, a proximal end and at least one light guiding path. The system further comprises a first imaging device mounted at the proximal end of the insertion portion and optically coupled to the light guiding path, the first imaging device comprising a plurality of first detecting elements exhibiting a first sensitivity to light. A flexible guiding portion comprising a distal end and a proximal end is provided to guide a second part of the light emanating from the medium from the distal end of the guiding portion to the proximal end of the guiding portion. A second imaging device provided at the proximal end of the flexible guiding portion comprises a plurality of second detecting elements exhibiting a second sensitivity to light, the second sensitivity of the second detecting elements being higher than the first sensitivity of the first detecting elements. A control unit is configured to derive at least one third image of the medium based on image data of the at least one first image of the medium and image data of the at least one second image of the medium. The invention further relates to a corresponding method for processing images.

An endoscope apparatus includes: an insertion portion having a distal end portion; an optical path switching unit configured to switch an optical path so that only one of a first subject image and a second subject image is imaged on an image forming area, the second subject image being an image of a subject formed by light emitted from a second objective optical system disposed at the distal end portion and having an optical magnification higher than that of the first objective optical system; an imaging element configured to generate an image acquired by picking up the first subject image and the second subject image formed in the image forming area; and an endoscope processing unit configured to control switching of the optical path based on an input zoom magnification and apply image processing to the image generated by the imaging element.

An attachment for an imaging device may include a first sheath including a proximal end, a distal end, and a lumen extending between the proximal end and the distal end; a second sheath positioned around an exterior of the first sheath; and a connector coupled to the first sheath and configured to be coupled to the imaging device.

An instrument connector comprises a housing, a first connector, and a second connector. The housing includes a proximal face at a proximal end of the instrument connector, and the proximal face is coincident with a reference plane. The first connector extends proximally away from the proximal face and includes a rod and a first interface for a first transmission channel. The rod is configured to mate with a first socket of a console connector. The second connector is recessed within the housing, includes a second interface for a second transmission channel, and is configured to mate with a second socket of the console connector. The proximal end of the second connector is distal to the reference plane. The rod is configured to engage with the first socket to at least partially align the second connector with the second socket before the second connector engages with the second socket.

An endoscope system includes: an image acquiring unit that acquires a first frame image obtained by photographing a photographic subject and a second frame image obtained by photographing the photographic subject at a timing different from that of the first frame image; an oxygen saturation calculating unit that calculates an oxygen saturation by using the first frame image and the second frame image; a reliability calculating unit that calculates reliability of the oxygen saturation, calculated by the oxygen calculating unit, by using a signal ratio that is a ratio between a pixel value in a first specific wavelength range corresponding to a specific wavelength range of the first frame image and a pixel value in a second specific wavelength range corresponding to the specific wavelength range of the second frame image; and an information amount adjusting unit that adjusts an information amount of the oxygen saturation by using the reliability.

A medical observation system includes: a microscope; a support including a first joint configured to hold the microscope such that the microscope is rotatable about a first axis parallel to an optical axis of the microscope; and a first arm configured to hold the first joint and extend in a direction different from a direction of the optical axis of the microscope; a light guide cable inserted in the support and configured to guide illumination light to the microscope; and a binder configured to bind the light guide cable, wherein at least a part of the light guide cable is arranged along the first axis in a first section, the light guide cable extends in a direction different from the first axis in a second section, and the binder is configured to bind the light guide cable in the second section.

An endoscope handpiece and system may include an angle of view selector, a depressible button, which may be connected to a lock disposed within a port of the endoscopic handpiece. The system may further provide an endoscope, which may be connected to the handpiece via the port and locked in place by the lock.