A forceps having a first jaw and a second jaw, where at least one of the first and second jaws is capable of moving between an open position and a closed positions. The forceps including an inner shaft located within an outer shaft and extending along the longitudinal axis, and a drive bar coupled to and extending distally from the inner shaft. The drive bar including a pair of drive bar struts extending from a distal portion of the inner shaft and positioned laterally inward of at least one of first and second set of flanges of the first and second jaws. A drive pin is securable to the pair of drive bar struts and the drive bar is translatable within the outer shaft to translate the drive pin to move the first jaw and/or the second jaw between open and closed positions.

Forceps including a housing, a first body, a second body and a drive shaft. The first body has a passageway extending therethrough. The drive shaft extending through the passageway and connected to the first body such that the first body and the drive shaft are slidable with respect to the housing to drive jaws located at a distal portion of the drive shaft between an open position and a closed position. The second body having a second passageway. The drive shaft extending through the second passageway such that the second body is guided by the drive shaft and is slidable relative to the first body and the drive shaft to displace a blade shaft between a retracted position and an extended position.

A forceps having at least a first jaw with a longitudinal axis is disclosed. The first jaw can include a body portion, a first flange, a second flange and a cam pin. The first flange can define a first cam slot with a longitudinal extent along the longitudinal axis. The second flange can be spaced from the first flange a distance transverse to the longitudinal axis of the first jaw and can have a second cam slot. The cam pin, with a longitudinal axis, can be moveably secured within the first cam slot and the second cam slot. A diameter of the cam pin can be less than a width between a first longitudinal edge that defines a first side of each of the first cam slot and the second cam slot and a second longitudinal edge that defines a second opposing side of each of the first cam slot and the second cam slot so that the cam pin is moveably received by both the first cam slot and the second cam slot. With the first jaw pivoted to at least a first position, the cam pin and first flange can be configured such that the first longitudinal edge is contacted by the cam pin but the second longitudinal edge is spaced from the cam pin. The cam pin and second flange can be configured such that the first longitudinal edge is spaced from the cam pin but the second longitudinal edge is contacted by the cam pin.

A surgical tool can include an outer tube, an end effector, an inner tube, and a distal plug. The outer tube can extend along a longitudinal axis and the outer tube can include a pair of outer arms. The end effector can be connected to the outer arms. The inner tube can be located within the outer tube and can extend along the longitudinal axis. The inner tube can be connected to the end effector and the inner tube can be translatable along the outer tube to operate the end effector. The distal plug can be securable to the outer tube between the outer arms proximal of the end effector. The distal plug can include a wire routing bore extending therethrough.

An electrode for an electrosurgical instrument for plasma coagulation. The electrode has a heat dissipation element arranged such that the thermal resistance of the electrode, measured in the longitudinal direction (in distal or proximal direction), is 2: 300 WI (m*K). The heat dissipation element may be formed by a coating having a higher electrical conductivity and a higher thermal conductivity than the material of the electrode main part.

An electrosurgical instrument having an electrode arranged in a gas-carrying lumen and retained in a centred position. The electrode has an electrode body made of a thermally stable material, for example, hard metal, tungsten, steel, stainless steel or similar. The electrode has a coating made of a material with a low melting point, such as silver, silver alloys or another metal with a low melting point. A bonding layer, in particular a gold layer, can be provided between the coating and the electrode body.

An electrode for an argon plasma surgical instrument. The electrode has a heat dissipation device in the form of a single- or multi-layer coating. The coating may have a greater electrical conductivity and also a greater thermal conductivity than that of the material of the electrode main body. The coating may also have a melting temperature less than that of the material of the electrode main body. The melting temperature of the coating may be below 1100° C. If the coating is multi-layered, the melting temperature of the outer surface layer may also be below 1100° C., and preferably below 1000° C.

A catheter for electrophysiological measurement can include a catheter shaft including a proximal end and a distal end. An electrical conductor can be attached to the catheter. In some examples, a catheter tip portion can be located at the distal end of the catheter shaft. The catheter tip portion can include an electrical conductor and an electrode. In some examples, the electrical conductor can be a trace along a flexible circuit. The electrical conductor can be configured to be communicatively coupled to an ECU, and the electrode can be disposed on the electrical conductor. In various examples, a contact surface area of the electrode can include an impedance reduction layer.

A surgical tool can include a shaft, a pin, an end effector, and a translating member. The shaft can define a longitudinal axis. The pin can be located at a distal portion of the shaft. The end effector can be connected to the shaft. The translating member can be positioned laterally inward of the shaft. The translating member can include a track and the pin can extend into the track to limit translation of the translating member along the longitudinal axis with respect to the end effector.

An end effector assembly for use with an electrosurgical instrument is provided. The electrosurgical instrument includes a handle having a shaft that extends therefrom, an end effector disposed at a distal end of the shaft, at least one electrode operably coupled to the end effector and adapted to couple to a source of electrosurgical energy, a titanium nitride coating covering at least a portion of the electrode, a chromium nitride coating covering at least a portion of the electrode and/or titanium nitride coating, and a hexamethyldisiloxane plasma coating covering at least a portion of the chromium nitride coating.