A device for treating a tissue includes a capsule extending longitudinally from a proximal end to a distal end and including a channel extending therethrough, the capsule releasably coupled to a proximal portion of the device and clip arms, proximal ends of which are slidably received within the channel of the capsule so that the clip arms are movable between an open configuration, and a closed configuration. A core member is coupled to the clip alms, the core member including a proximal portion and a distal portion releasably connected to one another so that, when the core member is subjected to a predetermined load, the proximal and distal portions are separated from one another. An electrically conductive control member is connected to the core member, a proximal end of the connected member connected to a power source for delivering an electrical current to the clip arms.

A method of operating an electrosurgical apparatus for coagulating tissue comprises inserting the electrosurgical instrument (1) into an endoscope (7), and activating a source to supply ionisable gas to the electrosurgical instrument (1) at a flow rate of less than a predetermined threshold flow rate while the electrosurgical instrument is being inserted into the endoscope (7). Once the electrosurgical instrument has been fully inserted into the endoscope (7), the source is activated to supply ionisable gas to the electrosurgical instrument at a flow rate of greater than the predetermined threshold flow rate. Finally, high frequency energy is supplied from an electrosurgical generator (5) to the electrosurgical instrument (1), in order to ionise the ionisable gas flowing to the electrosurgical instrument.

A high frequency handpiece for skin treatment is provided, which includes: a handle of which one end is connected to a high frequency generator and the other end has an opening formed thereon, in which the handle has a cylindrical shape to allow grip by hand; and a needle cartridge fitted to one side of the handle and including a needle formed thereon to output a high frequency to skin when supplied with power, in which the needle cartridge includes a holder having both open sides and a passage formed therein; a needle assembly coupled to one side of the holder and having the needle formed therein to be inserted into the skin; a connector coupled to an opening on the other side of the holder, connected to one side of the needle assembly, and having a fitting part formed at the other side; and a power plug removably fitted into the fitting part of the connector and is coupled to the handle to supply power. Accordingly, because the cartridge having needles integrally formed thereon can be separated from the handle, replacement with a new cartridge can be facilitated, and the needles can be replaced in a more hygienic manner.

A surgical instrument includes a body, an elongate shaft extending distally from the body, an end effector disposed at a distal end of the elongate shaft, and a firing beam. The end effector has a first jaw and a second jaw. The first jaw is pivotable toward and away from the second jaw to capture tissue. The end effector further comprises at least one electrode. The at least one electrode is operable to apply RF energy to tissue captured between the first jaw and the second jaw. At least a portion of the end effector is reconfigurable to transition the end effector into a cleaning state

A surgical instrument including a means for determining the presence of an end effector and determining the type of end effector which is coupled to the surgical instrument handpiece. The end effector includes a ring-shaped magnet, and the handpiece includes a hall-effect sensor for determining the presence and magnitude of the magnetic field produced by the ring-shaped magnet. This allows the end effector to be characterised even where the end effector is rotatably coupled to the handpiece of the surgical instrument.

An end effector assembly for an electrosurgical device includes first and second jaw members movable between spaced-apart and approximated positions for grasping tissue therebetween. The jaw members cooperate to define a tissue grasping area. One or both of the jaw members includes an inner electrode. One or both of the jaw members includes first and second outer electrodes disposed on either side of the inner electrode. The inner and outer electrodes are configured to conduct energy through tissue grasped within the tissue grasping area to seal tissue. The inner and outer electrodes define different configurations such that, upon conduction of energy through tissue grasped within the tissue grasping area, tissue disposed adjacent the outer electrodes is boiled before boiling of tissue disposed adjacent the inner electrodes.

Lysing surgical instruments and related systems and methods. In some embodiments, the instrument may comprise a lysing tip comprising a plurality of beads and at least one lysing member defining at least one lysing segment extending between each pair of adjacent beads or between a tip of the instrument and an adjacent bead. Some embodiments may comprise rearward-facing lysing segments to facilitate retrograde lysing movement through patient tissue.

An electrosurgical tool includes an electrically powered handpiece with a detachable electrode at one end and a power connection at the other. A mechanism for connecting the detachable electrode to the handpiece includes a keyed electrical connection to power the electrode. The handpiece includes a feedback controller incorporated in the tool to adjust operational characteristics of the electrosurgical tool.

A surgical system including a cartridge having a first tissue sealing electrode and a surgical instrument including a first jaw and a second jaw, wherein the first jaw comprises a second tissue sealing electrode facing the second jaw, and wherein the second jaw is configured to removably receive the cartridge in a position where the first tissue sealing electrode is opposite the second tissue sealing electrode. The surgical system further includes a cut and seal controller, wherein the cut and seal controller automatically generates a command to the surgical instrument to reduce a clamping force between the first and the second jaws after sensing that tissue sealing is complete.

A surgical system is provided including a reusable handle assembly having a controller and a reusable cannula assembly configured to be operatively connected to and steerable by the reusable handle assembly. Additionally, the surgical system includes a plurality of surgical instruments configured to be inserted through the reusable handle assembly and configured to advance a length of the reusable cannula assembly, such that the plurality of surgical instruments are engaged with at least one trigger mechanism of the reusable handle assembly. The handle assembly, the cannula assembly, and the plurality of surgical instruments are modular components configured to be releasably or removably coupled or interconnected to each other.