Fluid cooled electrosurgical cauterization system
First Claim
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1. A method for controlling the temperature of an energy delivering, cauterizing electrode, comprising:
- providing an elongate electrosurgical probe member having disposed at a distal portion of an outer surface thereof at least one energy delivering cauterization electrode, the probe member having a fluid delivering lumen associated therewith and being in electrical communication with an electrosurgical generator unit;
delivering electrosurgical energy from the generator unit through the probe member to the energy delivering electrode and adjacent tissue;
measuring the tissue impedance based on the energy applied thereto and generating a signal representative of measured tissue impedance;
comparing the measured tissue impedance with a predetermined maximum impedance value;
transmitting to the electrosurgical generator unit a signal to cease or limit further energy delivery if the measured tissue impedance exceeds the predetermined maximum impedance value;
passing a fluid through the lumen at a desired flow rate to regulate the temperature of the energy delivering electrode; and
regulating the flow rate to maintain the tissue impedance at or below the predetermined maximum impedance value.
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Abstract
An electrosurgical probe is disclosed which provides the ability to both cut and cauterize tissue. The probe includes at least one cauterization electrode mounted upon a distal portion of the electrode and adapted to deliver electrosurgical energy to tissue. Further, a central lumen is disposed within the probe. The lumen is adapted to accommodate the flow of fluid from a remote source to tissue through an outlet port in the distal end of the probe. Also, the lumen houses a cutting electrode which is selectively deployable. Both cauterization and coagulation can be conducted in a bipolar mode. The flow of fluid through the lumen serves to limit the heat transfer from the cauterization electrode to adjacent tissue to an extent sufficient to prevent the sticking of tissue to the probe. A feedback system is also provided to optimize the electrode temperature.
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Citations
4 Claims
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1. A method for controlling the temperature of an energy delivering, cauterizing electrode, comprising:
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providing an elongate electrosurgical probe member having disposed at a distal portion of an outer surface thereof at least one energy delivering cauterization electrode, the probe member having a fluid delivering lumen associated therewith and being in electrical communication with an electrosurgical generator unit; delivering electrosurgical energy from the generator unit through the probe member to the energy delivering electrode and adjacent tissue; measuring the tissue impedance based on the energy applied thereto and generating a signal representative of measured tissue impedance; comparing the measured tissue impedance with a predetermined maximum impedance value; transmitting to the electrosurgical generator unit a signal to cease or limit further energy delivery if the measured tissue impedance exceeds the predetermined maximum impedance value; passing a fluid through the lumen at a desired flow rate to regulate the temperature of the energy delivering electrode; and regulating the flow rate to maintain the tissue impedance at or below the predetermined maximum impedance value. - View Dependent Claims (2, 3)
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4. A system for controlling the temperature of an energy delivering, cauterizing electrode, comprising:
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an elongate electrosurgical probe member having a central lumen disposed therein to enable fluid to be conveyed through the probe member for discharge at a distal portion of the probe member, the probe member having at least one energy delivering electrode disposed at a distal portion of the probe member; an electrosurgical generator unit in electrical communication with the probe member for supplying electrosurgical energy to the electrode for delivery to tissue adjacent to the electrode; a fluid supply source in communication with the lumen; impedance measuring means for measuring tissue impedance based on the energy applied thereto; impedance comparing means for comparing the measured tissue impedance to a predetermined maximum impedance value, the impedance comparing means generating a disabling signal if the measured impedance value exceeds the predetermined maximum impedance value; means for communicating the disabling signal to the electrosurgical generator unit to cease further delivery of energy from the generator unit to the probe member; and fluid control means for regulating the rate of flow of fluid through the lumen to maintain the measured tissue impedance at or below a predetermined maximum impedance value.
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Specification
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Current AssigneeAmerican Cardiac Ablation Company Incorporated
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Original AssigneeAmerican Cardiac Ablation Company Incorporated
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InventorsNardella, Paul C.
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Primary Examiner(s)Cohen, Lee S.
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Application NumberUS08/197,959Time in Patent Office530 DaysField of Search606/34, 606/37-40, 606/42, 606/45, 606/46, 606/48, 606/49, 606/50US Class Current606/40CPC Class CodesA61B 18/1206 Generators thereforA61B 18/1402 Probes for open surgeryA61B 18/1477 Needle-like probesA61B 18/1482 having a long rigid shaft f...A61B 2017/00084 TemperatureA61B 2018/00011 with fluidsA61B 2018/00196 reciprocating lengthwiseA61B 2018/1425 NeedleA61B 2018/1435 Spiral
