Abstract: An endoscope. One or more image sensors are designed to capture image data in visible light. One or more image sensors are designed to capture image data in a nonvisible portion of the electromagnetic spectrum. An insertion shaft is designed to support the visible and nonvisible image sensors at or near a distal tip with sufficient rigidity to permit guidance to a surgical site in a human body. Image processing software is trained through machine learning to enhance image quality of at least the nonvisible portion of the image, and to present the enhanced nonvisible image as a real-time, visible presentation to a surgeon. A handle has electronics for drive of illumination circuitry and to receive imaging signal from the imaging circuitry. A joint between the proximal handle portion and the insertion shaft is designed to separably connect the insertion shaft to the proximal handle portion. When separated, the joint permits removal of the insertion shaft for disposal and replacement.

Abstract: One or more computers provide an interface that permits a patient to request information about a disease or injury treatable by surgery. The computers host a dialog between the patient and a human expert in treatment and the patient, including taking a patient history for storage into the computer memory. In the event that the patient undergoes surgery, the computers receive a video feed from an endoscope being used in surgery of a patient, and store at least excerpts from the video under control of the surgeon. The computers receive instructions from a member of the surgical team to edit the stored video into an educational video designed to educate the patient in post-surgical care of the surgery site. Via an interface compliant with patient confidentiality laws, the computers provide the educational video to the patient.

Abstract: An endoscope with a handle and an insertion shaft. The insertion shaft has solid state illumination and imaging circuitry at or near a tip designed to provide illumination and imaging of the interior of a body cavity for a surgeon during surgery. The proximal portion of the handle has electronics for drive of the illumination circuitry and to receive imaging signal from the imaging circuitry, the proximal handle portion being designed to permit sterilization between uses. A joint between the proximal handle portion and the insertion shaft is designed to separably connect the insertion shaft to the proximal handle portion. When it is separated, the joint permits removal of the insertion shaft for disposal and replacement. The joint is designed so that, when connected, the joint can transfer mechanical force from a surgeon's hand to the insertion shaft, and provides electrical connectivity between the proximal handle circuitry and the illumination and imaging circuitry.