Patent application number | Description | Published |
20090082765 | REAL-TIME ARC CONTROL IN ELECTROSURGICAL GENERATORS - An electrosurgical generator is disclosed. The generator includes a radio frequency output stage configured to generate a radio frequency waveform and a sensor circuit configured to measure a property of the radio frequency waveform during a predetermined sampling period to determine whether an arc event has occurred. The generator also includes a controller configured to determine a total charge and/or total energy deposited by the radio frequency waveform during the predetermined sampling period associated with the arc event. The controller is further configured to adjust the output of the electrosurgical generator based on at least one parameter to limit arcing. | 03-26-2009 |
20100036373 | Electrosurgical System Having a Sensor for Monitoring Smoke or Aerosols - An electrosurgical system includes an electrosurgical generator configured to generate electrosurgical energy and a sensor. The sensor is coupled to the electrosurgical generator and senses aerosol and/or smoke generated during application of the electrosurgical energy. The sensor generates data in response to the sensed aerosol and/or smoke and communicates the data to the electrosurgical generator. The electrosurgical generator generates the electrosurgical energy as a function of the data. | 02-11-2010 |
20100036374 | Electrosurgical System Having a Sensor for Monitoring Smoke or Aerosols - An electrosurgical system includes an evacuator apparatus and a sensor. The evacuator apparatus evacuates aerosol and smoke generated during application of electrosurgical energy. The sensor is operatively coupled to the evacuator apparatus and senses the aerosol and smoke generated during application of the electrosurgical energy. The sensor generates data in response to the sensed aerosol and smoke. The sensor operatively communicates the data to the evacuator apparatus and the evacuator apparatus evacuates the aerosol and smoke as a function of the data. | 02-11-2010 |
20100094271 | Apparatus, System and Method for Monitoring Tissue During an Electrosurgical Procedure - A system for monitoring and/or controlling tissue modification during an electrosurgical procedure is provided. The system includes an electrosurgical apparatus adapted to connect to an electrosurgical generator. The electrosurgical apparatus configured to transmit energy to tissue. The system also includes a control system having one or more electromagnetic wave sources configured to generate the interrogator wave of one or more frequencies adjacent tissue. One or more sensors are configured to transmit and sense a reflected portion of the interrogator wave of at least one frequency to determine dielectric boundary data. A processor operatively coupled to the control system and to the electrosurgical generator configured to control the delivery of electrosurgical energy from the electrosurgical generator to tissue based on dielectric boundary data provided by the one or more sensors. | 04-15-2010 |
20120197250 | Electrosurgical System Having a Sensor for Monitoring Smoke or Aerosols - An electrosurgical system includes an electrosurgical generator configured to generate electrosurgical energy and a sensor. The sensor is coupled to the electrosurgical generator and senses aerosol and/or smoke generated during application of the electrosurgical energy. The sensor generates data in response to the sensed aerosol and/or smoke and communicates the data to the electrosurgical generator. The electrosurgical generator generates the electrosurgical energy as a function of the data. | 08-02-2012 |
20120253370 | ULTRASONIC SURGICAL INSTRUMENTS - An ultrasonic surgical instrument is provided. The ultrasonic surgical instrument includes a housing having an elongated shaft extending therefrom. A first jaw member disposed at a distal end of the shaft is movable between open and clamping configurations. A pair of second jaw members disposed at the distal end of the shaft are movable between open and clamping configurations. A cutting blade extending to the distal end of the shaft is operably coupled to the housing. The pair of second jaw members and first jaw member are moveable to the clamping configuration to compress tissue of interest for removing moisture therefrom prior to the tissue of interest being treated. | 10-04-2012 |
20120253371 | ULTRASONIC SURGICAL INSTRUMENTS - An ultrasonic surgical instrument is provided. The ultrasonic surgical instrument includes a housing having an elongated shaft extending therefrom. The shaft defines a longitudinal axis therethrough and has a jaw member disposed at a distal end thereof. The jaw member is movable between an open configuration and a clamping configuration. A cutting blade extends from a distal end the shaft and operably couples to the housing and adjacent the jaw member. The cutting blade includes top and bottom portions. The top portion configured to cool the bottom portion while the cutting blade treats tissue. | 10-04-2012 |
20120253372 | ULTRASONIC SURGICAL INSTRUMENTS - An ultrasonic surgical instrument is provided. The ultrasonic surgical instrument includes a housing having an elongated shaft extending therefrom. The shaft has a jaw member disposed at a distal end thereof. The jaw member is movable between an open configuration and a clamping configuration and includes a tissue contacting surface thereon. A cutting blade extends from a distal end of the shaft and operably couples to the housing and adjacent the jaw member to treat tissue. A selectively removable laminate liner is positionable over the tissue contacting surface of the jaw member and configured to prevent contact between the tissue contacting surface and the cutting blade when the cutting blade is treating tissue. | 10-04-2012 |
20130072950 | Ultrasonic Surgical System Having A Fluid Cooled Blade And Related Cooling Methods Therefor - The present disclosure is directed to a fluid cooled ultrasonic surgical instrument and related systems and methods of use therefor. In some embodiments, the disclosed ultrasonic surgical instrument is adapted for used within an insufflated cavity or pneumoperitoneum of a patient. The instrument includes a housing having an elongate shaft, a waveguide disposed at a distal end of the shaft, a coolant inlet port defined in an outer surface of the housing, and a coolant pump disposed within the housing and configured to move coolant from the coolant inlet port to the waveguide. During use, insufflation gas from within the pneumoperitoneum is drawn into the instrument shaft by the coolant pump, and blown over the waveguide to provide cooling. The delivery of ultrasonic energy and activation of the pump may be controlled by a processor in response to user input and waveguide temperature. | 03-21-2013 |
20140012297 | ULTRASONIC SURGICAL INSTRUMENTS - An ultrasonic surgical instrument is provided. The ultrasonic surgical instrument includes a housing having an elongated shaft extending therefrom. The shaft defines a longitudinal axis therethrough and has at least one jaw member disposed at a distal end thereof. The jaw member(s) is movable between open and clamping configurations. A probe extends through the shaft and operably couples to the housing, The probe includes a cutting blade at a distal end thereof adjacent the jaw member(s) to treat tissue of interest. The jaw member(s) and cutting blade are configured such that heat damage to tissue adjacent tissue of interest that has been treated by the cutting blade is reduced and/or eliminated. | 01-09-2014 |
20140025064 | REAL-TIME ARC CONTROL IN ELECTROSURGICAL GENERATORS - An electrosurgical generator is disclosed. The generator includes a radio frequency output stage configured to generate a radio frequency waveform and a sensor circuit configured to measure a property of the radio frequency waveform during a predetermined sampling period to determine whether an arc event has occurred. The generator also includes a controller configured to determine a total charge and/or total energy deposited by the radio frequency waveform during the predetermined sampling period associated with the arc event. The controller is further configured to adjust the output of the electrosurgical generator based on at least one parameter to limit arcing. | 01-23-2014 |
20140236142 | ELECTROSURGICAL GENERATOR AND SYSTEM - An electrosurgical generator includes an electrosurgical energy output configured to deliver electrosurgical energy to a bipolar end effector assembly in a conductive fluid environment for treating tissue. A controller having a processor is configured to control a waveform of the electrosurgical energy such that the waveform oscillates between a cut phase for initiating and sustaining tissue cutting, wherein the waveform includes a cut energy greater than the energy needed to create and sustain arcing, and a hemostasis phase, for desiccating/coagulating tissue, wherein the waveform includes a hemostasis energy less than the energy needed to sustain arcing. | 08-21-2014 |
20140236143 | ELECTROSURGICAL ELECTRODES - An electrode assembly is provided. The electrode assembly includes a proximal end that is adapted to connect to an electrosurgical instrument including a housing defining a longitudinal axis therethrough and an electrosurgical energy source. A distal end includes a cutting electrode having a loop configuration configured to cut tissue. The distal end includes a return electrode operably disposed adjacent the cutting electrode. A dielectric shield is operably disposed between the cutting electrode and return electrode. The dielectric shield extending distally past the cutting electrode to hinder current flow to the return electrode when the dielectric shield, cutting electrode and return electrode are submersed in a conductive solution and the cutting electrode is energized, thereby concentrating current density at the cutting electrode. | 08-21-2014 |
20140276751 | SYSTEM CONFIGURED TO PROVIDE CONTROLLED DEPTH OF HEMOSTASIS - An electrosurgical device is provided and includes a handset having a shaft extending therefrom. The electrosurgical device includes a pair of electrodes disposed at a distal end of the shaft. One or more sensors are in operable communication with the pair of electrodes to detect a pressure applied thereto. The amount of electrosurgical energy that is transmitted to the pair of electrodes is proportional to the amount of pressure that is applied to the pair of electrodes and detected by the sensor. | 09-18-2014 |
20140276784 | SYSTEM AND METHOD FOR BIOFILM REMEDIATION - A method for removing biofilm from a lumen of a medical implant is disclosed. The method includes the steps of inserting a plasma applicator into a lumen defined in a medical implant, the lumen having a proximal end portion and a distal end portion having an opening therein, positioning the plasma applicator adjacent a biofilm formation, generating a selectively reactive plasma effluent at the plasma applicator and directing the selectively reactive plasma effluent at the biofilm formation. | 09-18-2014 |
20150018815 | DEVICES, SYSTEMS, AND METHODS FOR TISSUE MORCELLATION - A morcellator includes a housing, an elongated tube extending distally from the housing, and first and second electrodes. A distal end of the elongated tube is configured to cut tissue. The first electrode extends from the housing to the distal end of the elongated tube and is disposed around at least a portion of the distal end of the elongated tube. The second electrode extends distally beyond the first electrode. Another morcellator includes a housing, an elongated tube extending distally from the housing, and an oscillating mechanism. A distal end of the elongated tube includes opposing blade sections and at least one blunt section. The opposing blade sections are configured to cut tissue. The oscillating mechanism is configured to drive oscillation of the elongated tube to cut tissue with the blade sections. | 01-15-2015 |