Electrosurgery blades including electrosurgery blade assemblies having argon beam capability. The electrosurgery blade includes a thin conductive member having a lead sharp cutting end and an opposite noon-cutting end and a non-conductive coating covering the thin conductive member such that at least a portion of the lead cutting end and at least a portion of the opposite non-cutting end of the thin conductive member remain exposed. An electrosurgery blade assembly having argon beam capability includes the previously described electrosurgery blade, a non-conductive tube member having a hollow tubular shaped opening positioned on top of the electrosurgery blade, and a conductive hollow tubular member contained within at least a portion of the non-conductive tube member.

Structures for treating tissue with high-frequency energy, methods of making a structure for treating tissue with high-frequency energy, and methods of treating tissue with high-frequency energy. A structure for use in treating tissue may include multiple microblades composed of an electrical conductor. Each of the microblades may include a shaft and a tip arranged adjacent to an end of the shaft. The tip includes multiple surfaces that surround a solid core of the tip and at least two of the surfaces may taper toward the end of the shaft.

A protection circuit for a direct-current (DC) ablation prostate therapy system. The protection circuit is selectively coupled to a power source that provides DC constant current to a plurality of electrodes in a catheter configured to deliver DC ablation therapy to prostate tissue. The protection circuit is controlled by a controller and a switching circuit to buffer energy from the power source in response to a monitoring circuit that monitors at least one parameter of the DC ablation therapy, such as voltage or impedance. The controller is configured to selectively activate the switching circuit based on the monitoring circuit detecting an undesirable increase in the energy delivered for the DC ablation therapy.

An arthroscopic cutting probe includes a shaft assembly having a distal end, a proximal end, and a longitudinal axis. A distal cutting member is rotatably attached at the distal end of the shaft assembly, and at least a portion of an exterior surface of the distal cutting member is electrically insulated. One or more burr elements extend radially outwardly from the electrically insulated portion of the exterior surface of the distal cutting member, wherein the burr element is electrically conductive to form an active electrode.

A method of applying RF energy includes using an RF energy applicator assembly to apply RF energy to a tissue. The RF energy applicator assembly includes a housing, and RF electrodes coupled to an RF energy source and movably mounted in the housing. The RF electrodes have a retracted position, in which the RF electrodes are retracted inside the housing, and deployed positions in which the RF electrodes protrude out of the housing at different protrusion lengths. An actuator is coupled to the RF electrodes and configured to move the RF electrodes from the retracted position to any one of the deployed positions.

An electrosurgical device is disclosed. The electrosurgical device includes a cartridge configured to be disposed within an elongate channel of an end effector. The cartridge includes an electrode having a plurality of electrode portions disposed along a longitudinal axis of the cartridge. The electrode is configured to electrically couple to a generator. Each electrode portion of the plurality of electrode portions is configured to deliver an amount of energy to a tissue placed proximate thereto. An amount of energy delivered by a first electrode portion of the plurality of electrode portions differs from an amount of energy delivered by a second electrode portion of the plurality of electrode portions.

The present disclosure relates to a fat-removing surgical instrument. The present disclosure additionally arranges/provides, on a lipolyzed fat suction passage of a wave-guide tube, an optical fiber support which is made from an insulating material and which supports optical fibers in a restrained state while fixed to the wave-guide tube, so that the optical fibers are prevented from being deformed and coming in contact with the wave-guide tube, and thus, the optical fibers are induced, even though a variety of factors (for example, weight, contact with human tissue and the like) are applied to the optical fibers during fat removal surgery, to effectively avoid coming in direct contact with the wave-guide tube and being damaged thereby, while a series of deformations (for example, a curved shape and the like) are inhibited/controlled, on the basis of forceful restraint of the optical fiber support.

This invention relates to a cautery instrument or handheld device having a generally centralized lumen or passageway through the device and that utilizes a conductive tubular member.

[Object]

Provided is a catheter that can enhance the smoothness of a lumen.

Solution

A balloon catheter includes: an outer shaft to be inserted into a body, the outer shaft including a main lumen that extends in an axial direction from a proximal end side toward a distal end side; and a second member exposed in a portion of an inner circumferential surface of the outer shaft to the main lumen and having frictional properties lower than those of a first member (an inner shaft) that forms the inner circumferential surface of the outer shaft. The balloon catheter further includes sub-shafts that include sub-lumens extending in the axial direction and that are formed of the second member, and a portion of outer circumferential surfaces of the sub-shafts is exposed in a portion of the inner circumferential surface of the outer shaft to the main lumen.

A surgical system comprising a generator and a surgical instrument configured to receive power from the generator is disclosed. The surgical instrument comprises a housing, a shaft defining a longitudinal axis, an end effector, and an internal charge accumulator. The housing comprises a motor. The end effector is operably responsive to actuations from the electric motor, transitionable between an open and closed configuration, and rotatable about an articulation axis transverse to the longitudinal axis. The generator is incapable of supplying a sufficient power directly to the motor to perform the actuations. The internal charge accumulator is in electric communication with the generator and supplies power to the motor. The internal charge accumulator is chargeable by the generator to a threshold value at a charge rate dependent on a charge level of the internal charge accumulator. The charge rate is independent of a charge expenditure by the surgical instrument.