An area of interest of a patient's organ may be identified based on the presence of a possible lesion during an endoscopic procedure. The location of the area of interest may then be tracked relative to the camera view being displayed to the endoscopist in real-time or near real-time during the endoscopic procedure. If the area of interest is visually marked on the display, the visual marking is moved with the area of interest as it moves within the camera view. If the area of interest moves outside the camera view, a directional indicator may be displayed to indicate the location of the area of interest relative to the camera view to assist the endoscopist in relocating the area of interest.

The present invention describes a hands-free system for controlling the movement of a cursor on one or more display devices. A tracking device including a traceable marker and one or more accelerometers and gyroscopes are used to track position and acceleration of the marker relative to a target of interest. A processing means processes the motion signals from the tracking device to determine the location of the cursor on the operator's monitor, which may also be displayed on more monitors. The tracking device is worn by the operator, optimally on the operator's head. The operator's head movements determine movement of the cursor.

An endoscope system includes a capsule endoscope that includes an imaging section, a first processing section that causes the imaging section to operate in a first mode or a second mode, and a first communication section that transmits the captured images to an external device, and the external device that includes a second processing section that outputs a mode switch instruction based on the captured images, and a second communication section that transmits the mode switch instruction, wherein the first processing section causes the imaging section to operate in the second mode from a halfway position of the small intestine, and also operate in the second mode in the large intestine based on the mode switch instruction.

An ingestible image scanning pill captures high resolution images of the GI tract as it passes through. Images communicated externally have exact location determination. Image processing software discards duplicate information and stitches images together, line scan by line scan, to replicate a complete GI tract as if it were stretched out in a straight line. A fully linear image is displayed to a medical professional as if the GI tract had been stretched in a straight line, cut open, laid flat out on a bench for viewing—all without making any incisions in a live patient.

The present invention generally relates to a dental intraoral scanner system. In detail, the present invention includes: a scan unit sequentially imaging an intraoral structure in a scan mode; a control unit generating a three-dimensional modeling image for each scan mode by using the imaged intraoral structure; and a display unit displaying the three-dimensional modeling image, wherein the control unit switches the scan unit from a present scan mode to a following scan mode according to a user's command that is input through the scanning unit, or automatically switches from the present scan mode to the following scan mode when a three-dimensional modeling image of the present scan mode is completed.

An endoscope system includes a video processor device that performs signal processing on an image, and an external device that is removably connected to the video processor device and can record light source correspondence information that corresponds to multiple light sources. The video processor device acquires light source correspondence information from the external device and performs signal processing that corresponds to the light source correspondence information.

The length of an endoscope carried by a robotic arm is determined using computer vision. The endoscope is inserted through a trocar into a body cavity and mounted to a manipulator arm. The position of a fulcrum for movement of the endoscope at the trocar site is determined using input from a force/torque sensor. While images are captured using the endoscope, the manipulator arm withdraws the distal end of the endoscope intro the trocar. Image processing is used to determine when the distal end of the trocar becomes visible in the captured images. The position of the endoscope at the point where the trocar becomes visible is recorded, and the length of the endoscope is determined based on the recorded position.

Systems and methods are provided for preparation of orthodontics and prosthodontics. A method may include scanning a patient's teeth to form first 3D data of the patient's teeth including a removable element that obscures part of the dental surfaces of the patient's teeth and non-obscured tooth surfaces, removing the removable element form the patient's teeth so that the removable element no longer obscures the part of the dental surfaces of the patient's teeth, and scanning the previously obscured part of the dental surfaces of the patent's teeth and the non-obscured tooth surfaces.

Embodiments described herein provide various examples of displaying an endoscope video of an endoscope resolution on a display having a screen resolution lower than the endoscope resolution. In one aspect, a process of displaying the endoscope video on the display can begin by displaying a portion of the endoscope video having the same resolution as the screen resolution on the display. While displaying the portion of the endoscope video, the process detects a surgical tool present in an off-screen portion of the endoscope video not visible on the display, and therefore not visible to the user. The process further analyzes the off-screen portion of the endoscope video including the detected surgical tool. The process subsequently generates an alert when a risk of the detected surgical tool is identified.

A driving force transmission mechanism for medical devices, includes a tubular portion including: an opening edge portion which allows a support portion of a drive shaft to be supported at an output end in a state where at least a part of the output end is accommodated in the tubular portion; and a first adjustment section which is configured to fix a gear train in a state where the drive shaft is inserted into the tubular portion and a distal portion of the drive shaft is arranged at a predetermined position where a driven portion is able to be driven and a state where a position of the output end of the gear train is adjusted relative to a position of the support portion of the drive shaft.