Abstract: A system and method for wirelessly powering an electrosurgical device using a generator to generate a radio frequency (RF) energy field. A switch on the electrosurgical device sends a wireless signal to the generator, where the generator allows a current to pass through an inductive coil to generate the RF energy field. The RF energy field induces a current to flow across an inductive coil within the electrosurgical device. The current flow is then processed through a RF conditioning circuit and outputted to the end effector assembly of the device.

Abstract: A system and method for wirelessly powering an electrosurgical device using a generator to generate a radio frequency (RF) energy field. A switch on the electrosurgical device sends a wireless signal to the generator, where the generator allows a current to pass through an inductive coil to generate the RF energy field. The RF energy field induces a current to flow across an inductive coil within the electrosurgical device. The current flow is then processed through a RF conditioning circuit and outputted to the end effector assembly of the device.

Abstract: A surgical instrument is provided. The surgical instrument includes a housing having a shaft operably supported thereon and a jaw member supported at a distal end of the shaft. The jaw member is movable between open and clamping configurations. The surgical instrument also includes a probe that has proximal and distal ends. The distal end has an active blade thereon that is configured to treat tissue when the jaw member is in a clamping configuration. The proximal end of the probe is configured to selectively engage a generator that is configured to selectively couple to the housing. An adjusting assembly is operably supported on the housing and is configured to selectively rotate the probe to engage the proximal end of the probe to the generator to secure the generator to the housing.

Abstract: A hernia repair system includes a surgical mesh, one or more electrosurgical instruments, and one or more return electrodes. The one or more electrosurgical instruments are configured to position the surgical mesh adjacent tissue in an underlying tissue site. The one or more return electrodes are positionable adjacent the tissue and externally relative to the underlying tissue site. The one or more electrosurgical instruments and the one or more return electrodes are configured to selectively apply an effective amount of pressure and electrosurgical energy to the surgical mesh such that upon the application of electrosurgical energy and pressure, the surgical mesh seals to one side of the tissue at the underlying tissue site.

Abstract: A hernia repair system includes a surgical mesh, one or more electrosurgical instruments, and one or more return electrodes. The one or more electrosurgical instruments are configured to position the surgical mesh adjacent tissue in an underlying tissue site. The one or more return electrodes are positionable adjacent the tissue and externally relative to the underlying tissue site. The one or more electrosurgical instruments and the one or more return electrodes are configured to selectively apply an effective amount of pressure and electrosurgical energy to the surgical mesh such that upon the application of electrosurgical energy and pressure, the surgical mesh seals to one side of the tissue at the underlying tissue site.

Abstract: An ultrasonic surgical instrument is provided and includes a housing. A shaft is supported on the housing and defines a longitudinal axis therethrough. The shaft supports a jaw member at a distal end thereof. The jaw member is movable between open and clamping configurations. A probe includes proximal and distal ends. The distal end has an active blade thereon configured to effect tissue when the jaw member is in the clamping configuration. The proximal end has at least one mating feature thereon. A rotating assembly operably supported on the housing is configured to rotate the shaft. The rotating assembly includes a torque adapter that is engageable with the at least one mating feature to selectively and releasably couple the probe to the housing.

Abstract: The present disclosure is directed to an electrosurgical instrument having a housing that includes a generator configured to output electrosurgical energy and a controller configured to control the output of the generator. The instrument also includes a switch coupled to the controller and configured to provide a signal to the controller to select the energy modality of the electrosurgical energy. An indicator is also included to provide an indication of the selected energy modality.

Abstract: A portable surgical instrument (PSI) includes a shaft extending therefrom. An end effector operably supported at the distal end of the shaft includes a pair of jaw members. One or both of the jaw members is activatable to treat tissue. A selectively removable generator pivotally couples to the housing to energize the activatable jaw member. The generator defining one or more apertures at a distal end thereof and a pivot member disposed at a proximal end thereof. A locking mechanism configured to operably couple to the elongated shaft of the housing includes one or more locking fingers configured to releasably couple to the one or more apertures disposed at the distal end of the generator such that generator is selectively and removably engageable with the housing of the portable surgical instrument.

Abstract: An electrosurgical pencil is provided, which includes an elongated housing, an electrocautery electrode supported within the housing and extending distally from the housing. The electrocautery electrode is connected to a source of electrosurgical energy. The pencil also includes at least one voltage divider network supported on the housing and electrically connected to the source of electrosurgical energy for controlling intensity, frequency, and/or mode of electrosurgical energy being delivered to the electrocautery electrode.

Abstract: An electrosurgical pencil is provided, which includes an elongated housing, an electrocautery electrode supported within the housing and extending distally from the housing. The electrocautery electrode is connected to a source of electrosurgical energy. The pencil also includes at least one voltage divider network supported on the housing and electrically connected to the source of electrosurgical energy for controlling intensity, frequency, and/or mode of electrosurgical energy being delivered to the electrocautery electrode.

Abstract: A system and method for powering a wireless electrosurgical device using a powered glove. The powered glove includes at least a conductive pad on a finger and a thumb. The glove is connected to a generator and supplies power to the wireless electrosurgical device when at least two conductive pads touch conductive buttons on the wireless device. The user selects the operating mode by selecting different combination of conductive buttons and/or switches on the wireless device. The generator senses a voltage drop across a circuit within the electrosurgical device to determine the operating mode. The generator then supplies the RF energy based on the selected operating mode via the glove to the wireless device.

Abstract: A fingertip-mountable electrosurgical instrument includes a monopolar electrode capable of directing energy into tissue, and a holder configured to be operably coupled to the monopolar electrode. The holder is also configured to be operably coupled to an energy source. The holder includes a housing body and one or more attachment members coupled to the housing body. The one or more attachment members are configured to be removeably attachable to a user's finger. The housing body includes a distal end and a proximal end. The monopolar electrode is mechanically coupled to the distal end of the housing body.

Abstract: A bipolar electrosurgical instrument includes a first electrode plate capable of applying bipolar energy into tissue, and a second electrode plate capable of applying bipolar energy into tissue. The bipolar electrosurgical instrument also includes a first attachment member coupled to the first electrode plate, and a second attachment member coupled to the second electrode plate. The first attachment member is configured to couple the first electrode plate to a user's finger, and the second attachment member is configured to couple the second electrode plate to the user's thumb, whereby the first and second electrode plates are arrangeable to opposingly face one another.

Abstract: A system and method for wirelessly powering an electrosurgical device using a generator to generate a radio frequency (RF) energy field. A switch on the electrosurgical device sends a wireless signal to the generator, where the generator allows a current to pass through an inductive coil to generate the RF energy field, The RF energy field induces a current to flow across an inductive coil within the electrosurgical device. The current flow is then processed though a RF conditioning circuit and outputted to the end effector assembly of the device.

Abstract: A hernia repair system includes a surgical mesh, one or more electrosurgical instruments, and one or more return electrodes. The one or more electrosurgical instruments are configured to position the surgical mesh adjacent tissue in an underlying tissue site. The one or more return electrodes are positionable adjacent the tissue and externally relative to the underlying tissue site. The one or more electrosurgical instruments and the one or more return electrodes are configured to selectively apply an effective amount of pressure and electrosurgical energy to the surgical mesh such that upon the application of electrosurgical energy and pressure, the surgical mesh seals to one side of the tissue at the underlying tissue site.

Abstract: A system and method for controlling electrosurgical snares are disclosed. The system includes an electrosurgical instrument having an elongate tubular sheath having proximal and distal ends, the sheath having a longitudinal axis defined therethrough and a shaft having proximal and distal ends. The shaft extends through and is axially movable relative to the sheath. A snare loop is provided at the distal end of the shaft and is configured for encircling tissue. Movement of the shaft relative to the tubular sheath changes the diameter of the exposed snare loop. A feedback sensor operatively connected to the elongated tubular sheath which determines at least one condition of the snare loop, and an electrosurgical generator provides electrosurgical energy to the electrosurgical snare instrument. The generator is configured to receive feedback measurements from the electrosurgical snare instrument and to adjust electrosurgical energy as a function of the measurements.

Abstract: A system and method for controlling electrosurgical snares are disclosed. The system includes an electrosurgical instrument having an elongate tubular sheath having proximal and distal ends, the sheath having a longitudinal axis defined therethrough and a shaft having proximal and distal ends. The shaft extends through and is axially movable relative to the sheath. A snare loop is provided at the distal end of the shaft and is configured for encircling tissue. Movement of the shaft relative to the tubular sheath changes the diameter of the exposed snare loop. A feedback sensor operatively connected to the elongated tubular sheath which determines at least one condition of the snare loop, and an electrosurgical generator provides electrosurgical energy to the electrosurgical snare instrument. The generator is configured to receive feedback measurements from the electrosurgical snare instrument and to adjust electrosurgical energy as a function of the measurements.

Abstract: A system and method for controlling electrosurgical snares are disclosed. The system includes an electrosurgical instrument having an elongate tubular sheath having proximal and distal ends, the sheath having a longitudinal axis defined therethrough and a shaft having proximal and distal ends. The shaft extends through and is axially movable relative to the sheath. A snare loop is provided at the distal end of the shaft and is configured for encircling tissue. Movement of the shaft relative to the tubular sheath changes the diameter of the exposed snare loop. A feedback sensor operatively connected to the elongated tubular sheath which determines at least one condition of the snare loop, and an electrosurgical generator provides electrosurgical energy to the electrosurgical snare instrument. The generator is configured to receive feedback measurements from the electrosurgical snare instrument and to adjust electrosurgical energy as a function of the measurements.

Abstract: An electrosurgical generator is disclosed. The generator includes a radio frequency output stage configured to generate a frequency waveform to an active electrode of an electrosurgical instrument when the active electrode is disposed in a fluid medium. The generator also includes a sensor circuit configured to measure tissue impedance and a controller configured to increase power of the radio frequency waveform to a predetermined electrical arcing level in response to the tissue impedance being within an open circuit impedance range and tissue contact impedance range. The controller is further configured to lower the power of the radio frequency waveform to a lower level when the tissue impedance is outside the open circuit impedance range and the tissue contact impedance range.

Abstract: An electrosurgical pencil is provided, which includes an elongated housing, an electrocautery electrode supported within the housing and extending distally from the housing. The electrocautery electrode is connected to a source of electrosurgical energy. The pencil also includes at least one voltage divider network supported on the housing and electrically connected to the source of electrosurgical energy for controlling intensity, frequency, and/or mode of electrosurgical energy being delivered to the electrocautery electrode.