The present technology relates to an image processing device, an image processing method, a program, and an endoscope system that can reduce a burden on a user. A parallax amount adjustment unit adjusts the parallax amount of a three-dimensional (3D) biological image of an imaged living organism, depending on whether the parallax of the 3D biological image puts a burden on a user. The present technology can be applied to an endoscope system or the like that captures an image of a living organism with an endoscope, for example.

Provided is an endoscope apparatus provided with: an elongated insertion portion that is inserted into a body; an image-acquisition portion that has an imaging optical system disposed at a distal end of the insertion portion and that acquires two images having parallax for the same imaging subject; an identifying portion that identifies an image of an object, which is in close proximity to the imaging optical system, that is captured only in one of the two images acquired by the image-acquisition portion; and a close-proximity-image-removal processing portion that processes the image so that the image of the object identified by the identifying portion is removed from the image.

An adapter for use with an endoscope. The adapter including: at least first and second axis-shifted lenses, each of the first and second axis-shifted lenses including a truncated portion, the first and second axis shifted lenses being arranged side by side so that respective first and second optical axes are parallel to each other; and a prism arranged further distally than the first and second axis-shifted lenses, the prism being configured to change a viewing direction of each of the first and second axis-shifted lenses; wherein at least a portion of each of the truncated portions of the first and second axis-shifted lenses is arranged further outward in the radial direction than the prism.

A stereoscopic endoscope system includes a stereoscopic endoscope and an identification information combining section. The stereoscopic endoscope is provided with an R image pickup section and an R output section which are provided on a right side of an endoscope body, an L image pickup section and an L output section which are provided on a left side of the endoscope body, and an R memory and an L memory which store correction information for either right or left and identification information. The right and left image pickup sections and the right and left memories are correctly or incorrectly combined and are connected to the right and left output sections. The identification information combining section performs image combination of an image and identification information inputted from the R output section or an image and identification information inputted from the L output section and outputs a combined image.

A stiffening assembly comprises an outer tube including a longitudinal axis, an inner tube extending along the longitudinal axis, and a plurality of laminar elements between the outer tube and the inner tube and separate from the outer tube and the inner tube. The stiffening assembly is adjustable between a flexible state in which each laminar element of the plurality of laminar elements is movable and a stiffened state in which an applied vacuum clamps the plurality of laminar elements between the outer and inner tubes such that a transfer of forces between the plurality of laminar elements stiffens the stiffening assembly. At least one laminar element of the plurality of laminar elements has a different thickness than at least another laminar element of the plurality of laminar elements.

Methods and systems for detecting undesirable electrocautery arcing events during an electrocautery surgical procedure may include introducing an electrosurgical treatment instrument to a surgical site to perform an electrocautery surgical procedure. A healthcare provider may view the surgical site with a surgical camera assembly having a surgical field-of-view. The healthcare provider also may view a portion of the electrosurgical treatment instrument with an electrocautery arc detection system including an arc detection camera having an arc detection field-of-view different than the surgical field-of-view obtained by the surgical camera. The electrocautery arc detection system may identify thermal infrared emission or tissue color changes as indicators of undesirable electrocautery arcing. Some implementations alert a healthcare provider of undesirable electrocautery arcing.

A digital dental tray system is described including a dental tray shaped to at least partially surround a plurality of teeth and a plurality of three-dimensional (3D) optical imaging elements attached to the dental tray. Each of the 3D optical imaging elements comprises a structured light projector to project a light pattern onto one or more teeth of the plurality of teeth and a camera to capture an image of the one or more teeth.

Various embodiments of the invention provide systems and methods to assist or guide an arthroscopic surgery (e.g., surgery of the shoulder, knee, hip or spine) or other surgical procedure by providing measurements intraoperatively. The systems and methods comprise steps of receiving a video stream from an arthroscopic imaging device; receiving one or more sets of coordinates of one or more points, paths, or area; calculating a length, a surface area, or a volume measurement based at least in part on the one or more sets of coordinates; overlaying the selected one or more sets of coordinates and the measurement on the video stream or on an expanded view of a region of surgery; and displaying the overlay on one or more display devices intraoperatively so as to be used by an operator during the arthroscopic procedure.

An apparatus for performing surgical procedures is disclosed including a flexible entry guide tube and a first steering device. The guide tube has one or more lumens extending along its length from a proximal end to substantially at or near a distal end. At least one of the one or more lumens is an instrument lumen with open ends to receive a flexible shaft of a surgical tool. The first steering device is insertable into the instrument lumen to shape the guide tube as it is inserted through an opening in a body and along a path towards a surgical site. The apparatus may further include a flexible locking device to couple to the flexible entry guide tube and selectively rigidize the guide tube to hold its shape. The guide tube may be steered by remote control with one or more actuators.

There is provided an endoscope imaging unit including parallel electric wires, an image sensor located on a front end side by being separated from front ends of the respective electric wires, and having a light incident surface substantially perpendicular to the electric wires, a flexible substrate located between the electric wires and the image sensor, having a circuit, and conductively connecting the respective electric wires to the circuit, an image sensor mounting peninsula portion bent with respect to the substrate, and mounting the image sensor thereon by conductively connecting the image sensor to the circuit, and a circuit mounting peninsula portion extending from the substrate, located by being bent to a side opposite to the image sensor before the image sensor mounting peninsula portion, and mounting and conductively connecting an electronic component or the circuit pattern to the circuit.