A laryngoscope has a blade pivoted to a handle, and a light emitter lamp on the blade powered from a battery power source. A block formation at the rear end of the blade, at which it is pivoted to the head of the handle, incorporates a power source housing for the battery. The power source housing has a cover flap which cannot be opened in the operating position of the blade, but can be opened for removal of the power source in the folded position, or with the blade detached. This facilitates disposal and recycling. Electrical connectors lead from the power source housing to the light emitter lamp, and the rear end block of the blade has an external switch actuator which engages the head of the handle when the blade is extended to turn on the lamp. The power source, electrical connectors and light emitter may be combined into a discrete lighting module casing incorporated in the blade.

A medical tool includes: a tool main unit configured to be driven in response to a power supply; a first power supply configured to be removable from the tool main unit; and a second power supply having a smaller power capacity than the first power supply, and configured to be charged by the first power supply. The tool main unit is configured to be driven by receiving power supply from one of the first power supply and the second power supply.

A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.

An endoscope includes a sensor that can detect a conductive member. Based on a detection result of the conductive member by the sensor, the endoscope can switch between a normal operation mode and an energy-saving operation mode in which power consumption is smaller than power consumption in the normal operation mode.

Provided is a capsule endoscope. The capsule endoscope includes: an imaging device configured to perform imaging on a digestive tract in vivo to generate an image; an artificial neural network configured to determine whether there is a lesion area in the image; and a transmitter configured to transmit the image based on a determination result of the artificial neural network.

A medical capsule, comprising an enclosure, the enclosure comprising an opening at one end along an axial direction; a PCB group and a functional unit which are arranged inside the enclosure; wherein the PCB group comprises a plurality of PCBs which are connected through flexible printed circuits and are spaced from each other, and the functional unit comprises a battery unit electrically connected to the PCB; and a pressure detection unit, comprising a pressure transmission film assembled at the opening, a pressure sensor positioned in the enclosure, and a pressure collecting and processing circuit board electrically connected to the pressure sensor, wherein the pressure collecting and processing circuit board is connected to one of the PCBs through a flexible printed circuit. The medical capsule is simple in structure, easy to equip and allows for expansion of functions as needed.

Method for leveraging battery residue energy and a capsule endoscope using the method are disclosed. The capsule endoscope is capable of performing one or more functions at a first throughput or a first peak current when the battery has sufficient energy. According to this method, whether the battery energy is sufficient is determined. Upon determining the battery energy being insufficient, at least one function of the one or more functions is performed at a second throughput lower than the first throughput, or at least one function of the one or more functions is switched to another function requiring a second peak current lower than the first peak current

Various embodiments comprise endoscopes (e.g., arthroscopes) for viewing inside a cavity of a body. The endoscopes may include a tip, at least one solid-state emitter such as light emitting diode (LED), located at the distal end of the endoscope, an elongated member. The elongated member may include a plurality of lenses for transmitting light received from the tip member and an elongated conducting member for providing electric power to the solid-state emitter. The elongated conducting member may include conducting lines embedded in a flexible elongated insulating membrane. The tip member and the elongated member may be configured to dissipate heat generated by the solid-state emitter.

An ingestible device comprising a capsule, a camera, an antenna, and a propulsion component id disclosed. The camera can capture images of various in vivo environments as the ingestible device traverses the gastrointestinal tract, and these images can be wirelessly transmitted to an electronic device located outside of the living body. The images may be transmitted to the electronic device for review by an operator responsible for controlling the ingestible device.

The present invention is generally directed toward a laryngoscope having a handle, a rigid tube, and an optical subassembly. The handle has a distal end and a proximate end. The tube is hollow and also has a distal end having a distal opening and a proximate end having a proximate opening. The optical subassembly may include a light source located within the handle, a power source located within the handle and in communication with the light source and a light carrier extending between the handle and the tube and in communication with the light source and providing light inside and along the entire length of the tube.