The present invention discloses a surgical traction system with a hand gripped tension adjustment device that slidably mounts onto a boom structure. When activated the tension adjustment device moves down the boom structure and incrementally adjusts the tension in a traction rope. The boom structure attaches to a bracket assembly that mounts onto the short end of a surgical table.

A system and method for nerve decompression comprise a knife unit having a parallel upper limb and lower limb terminating proximally at the cap of the tubular sheath and a triangular shaped surgical cutting blade disposed vertically in between the upper limb and the lower limb. Upper limb and lower limb extend distally beyond the cutting blade and have open slots to facilitate proper positioning and engaging of the tissue while allowing visualization of less routing structure. The knife receives the probe head of an endoscope just behind cutting blade for proper visualization and illumination. The guiding system comprises a handle unit and a pair of parallel guides with long open slots that act as a cannula of adjustable diameter. The open slots on parallel guides facilitate 360 degree visualization of the surroundings and also prevent derailing of endoscopic knife unit while passing through it.

A blood vessel dissecting device is disclosed, which includes at least two dissecting devices, which are inserted into a living body along a blood vessel to dissect tissue in a direction of alignment thereof with the blood vessel. The at least two dissecting devices include a first dissecting device and a second dissecting device. The first dissecting device and the second dissecting device are disposed juxtaposedly in the living body, and a branch vessel branched from the blood vessel is located between the first dissecting device and the second dissecting device.

A medical instrument and associated functionality are described for performing a cystostomy with optical guidance. A cystostomy device (10) includes a sound (12) including a distal portion (18) and a proximal portion (20), a front handle (14) and a rear handle (16). A physician or other user can grip the handles (14 and 16) to guide the distal portion (18) of the sound (12) through the urethra and into a bladder of the patient. The device (10) includes an optical unit (32) mounted at the tip (22) of the sound (12). The optical unit (32) generally includes a distal sound tip cap (34) with a lens opening and an optical lens (36) mounted on the opening. The optical unit (32) may further include one or more illumination sources, such as LEDs, for illuminating a volume forward of the tip (22) of the sound (12).

Described herein are devices and methods for applying a tension force to various tissues. The devices may be delivered in minimally invasive fashion and used to manipulate tissues in the nose, ear, and throat. Force may be maintained by the devices for a time period that allows shaping, compression, or approximation of tissues.

The present subject matter provides a system for allowing controlled access of a tool to all sides of an elevated tissue in body of a patient, the system including: a rail configured to surround the elevated tissue; and at least one vehicle configured to move along the rail and carry at least one tool configured to manipulate the elevated tissue. Also provided is a method for cutting an elevated tissue in a body of a patient, the method including: inserting a rail to a vicinity of the elevated tissue; surrounding the elevated tissue with the rail; placing a vehicle on the rail; connecting a cutting device to the vehicle; and moving the vehicle along the rail while cutting the elevated tissue with the cutting device. Additional embodiments of the system and method are disclosed herein.

A blood vessel dissecting device is disclosed, which includes a dissecting device which, when being inserted into a living body along a blood vessel, dissects tissue in a direction of alignment thereof with the blood vessel, and a cutting device which, when being inserted into the living body along the blood vessel, cuts tissue surrounding the blood vessel in a direction of alignment thereof with the blood vessel. The cutting device includes a main body section which is inserted into the living body and holds the tissue between itself and the dissecting device, and a cutting section which cuts the tissue held between the main body section and the dissecting device.

An endoscopic catheter assembly including a catheter portion is disclosed. The catheter portion includes a proximal portion and a distal portion. The catheter portion includes a tube-shaped body defining a passage extending there-through.

Disclosed herein are endoscope assemblies, and more particularly endoscopes with a working channel for use in hysteroscopy, and methods of use thereof. Devices and systems related to an integrated hysteroscopic treatment system including an endoscopic viewing system, a fluid management system, a resecting device and a controller for operating all the systems. Also disclosed are integrated hysteroscopic treatment systems that include an endoscopic viewing system, a fluid management system, a resecting device and a controller for operating all the systems.

An adaptive flow rate control system for a surgical device, whereby the control system includes one or more nonintrusive sensors configured to be positioned on an aspiration conduit extending downstream from a handheld surgical device to measure flow and reduce clogging within the aspiration conduit is disclosed. The nonintrusive sensor may provide data to a controller of a handheld surgical device system to enable it to control operation of the handheld surgical device based at least in part on the data from the adaptive flow rate control system to prevent clogging of the aspiration system. The adaptive flow rate control system may also include a clog tracking module and a clog prediction module. The adaptive flow rate control system may include a wireless communication system configured to communicate with other components of a surgical device system and may communicate with a external network and resources on the internet.