A modular endoscope including a handle and sheath that can be coupled or uncoupled using a bayonet connection. For example, when the handle and sheath are mated or coupled, the sheath has deflecting capability and tip angulation can be accomplished through the handle. The tip of the sheath is capable of being deflected to allow the tip to be pointed in a specific direction. The tip of the sheath, which is distal from the location where the sheath is coupled to the handle, includes an illumination element, an image capture element.

A light source for medical or surgical procedures is provided which can provide at least three different imaging modes. Modular light engines are also provided which may be interchangeable within a light source system for increased imaging capability. Methods of using such light sources and modular light engines are also provided.

An intubation device for intubating a patient includes a handle for holding the intubation device by a user, a single-use intubation blade that includes a retainer clip and a mounting lug held fixedly to the intubation blade by the retainer clip, a ratchet collar that is rotatably connected to the handle. The ratchet collar is rotatable with respect to the intubation blade in a first travel direction to mount the intubation blade to the handle and in a second travel direction to dismount the intubation blade from the handle. The intubation device also includes a disabling mechanism for preventing re-use of the intubation. The disabling mechanism includes a break-away section of the retainer clip, and gear teeth that have a first gear tooth surface. When the ratchet collar is rotated the first gear tooth surface breaks the break-away section dislocating the mounting lug.

A system and method for wirelessly transmitting a video image signal from an endoscopic camera to a receiver or control unit for storage and/or display on a video monitor. Use of a frame-specific, variable compression algorithm capable of progressively encoding a data stream provides for a better performing and higher quality wireless endoscopic camera system capable of generating images at varying resolutions. Use of a short-range, high-performance wireless technology, such as Ultrawideband (UWB), improves the performance capabilities of the system, while minimizing power consumption and extending battery life. Implementations of error correcting codes, as well as the use of multiple transmitting and receiving antennas, further improve the fidelity of the wireless communication.

The present invention relates to methods and devices for minimally invasive diagnosis and treatment of joint injuries and other injuries or diseases in body joints, tissues, and cavities. Small diameter endoscopic devices are used for visualization and to provide access for the insertion of small diameter surgical tools without the use of distending fluid. Preferred embodiments of the endoscopic devices can utilize wireless transmission to a handheld display device to visualize diagnostic and therapeutic procedures in accordance with the invention.

A disposable endoscope (200) and system, the disposable endoscope (200) comprising: a tubular component (201), a linear drive piece (202) controlling the tubular component (201) to bend, an image pickup unit (203) installed at the front end of the tubular component (201) and a wiring harness connected thereto, a cladding layer (204) wrapping around the integral structure, and a connector head (205) and a disposable fixing piece (206) both disposed at one end of the linear drive piece (202) away from the tubular component (201). A first connector (2021) is fixed at a connector head (205) at one end of the linear drive piece (202) and is detachably engaged with a corresponding second connector (301) of an external control base (300); the first connector (2021) is fixed by the disposable fixing piece (206) with respect to the connector head (205), and can be moved in a length direction within a through hole (2051) of the connector head (205) after the disposable fixing piece (206) is removed. The disposable endoscope system separates the control base (300) used to control a drive from the disposable endoscope (200) inserted into a cavity of a human body and used to capture images, realizing disposability of an endoscope, and thereby omitting existing complicated cleaning and sterilization processes.

The present invention discloses a flexible digital ureteroscope that is at least partially disposable. The ureteroscope comprises a single-use catheter and a handle. The catheter comprises a distal end, a bend portion, and a proximal portion. The distal end has a rigid or semi-rigid shell that houses a set of micro lenses, an image sensor microchip, and a plurality of LED light sources. A working channel extends along the entire catheter and is coupled to a working channel port on the handle to receive various medical devices and irrigation lines during an endoscopic procedure. In addition, the catheter includes one or more steering wires to control the distal end to bend towards a desired direction. The rigid or semi-rigid shell of the distal end is made of a mix of polymer composite material with graphene nano-filler for enhancing thermal dissipation. The handle may be a single-use handle or a reusable handle. In case the handle is a reusable handle, it includes a battery module and a wireless communication module for communicating with a host machine wirelessly. In case the handle is a single-use handle, to reduce cost, the handle does not include a battery module and/or a wireless communication module. Rather, the single-use handle includes a host interface for receiving power from the host machine and transmits image data to the host machine.

An eardrum incision device includes a main body, a replaceable inserting portion and a display device. The replaceable inserting portion is detachably connected to the main body. The replaceable inserting portion has an insertion end located on a side far away from the main body and adapted to be inserted into an ear canal of a user. The replaceable inserting portion includes an image-capturing device, a mounting hole and a replaceable incision component. The image-capturing device is disposed at the insertion end. The mounting hole extends in a direction from the insertion end toward the main body. The replaceable incision component is removably disposed in the mounting hole and adapted to pierce out of the mounting hole in a direction toward the insertion end, so as to incise the eardrum of the user. The display device is disposed on the main body and electrically connected to the image-capturing device.

A system, device and method for serializing and authorizing a single use imaging device are provided. In one embodiment, the invention provides a single use imaging device comprising a memory having a stored code that includes a unique serial identifier. In another embodiment, the invention provides a system for authorizing a single use imaging device comprising a single use imaging device with an image of a verification object that includes a serial identifier uniquely associated with the device, a control unit capable of electronically receiving the verification object image, a decoder capable of extracting a serial identifier from the verification object image, a database of authorized serial identifiers, and means for determining if the single use imaging device is authorized.

The present invention relates to a disposal endoscope cannula, and more particularly, to a disposable endoscope cannula which can prevent infection caused by reuse by manufacturing a disposable cannula required for an endoscope for a joint, and provides a disposable endoscope cannula constituted by an intubation part formed in a predetermined length and inserted into a human body; a binding part connected in the rear of the intubation part and fastened to a trocar part or a scope part to be detachable; a fluid flow-in and out part mounted on an outer peripheral surface at a front side of the binding part in order to input or discharge a fluid through the insertion part; and the trocar part fastened to the binding part and inserted through the intubation part.