Electrosurgical instrument
First Claim
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1. A method of operating an electrosurgical apparatus having at least a tissue desiccation mode and a tissue vaporization mode, the apparatus having a radio frequency generator coupled to an electrode assembly for the treatment of tissue in the presence of an electrically-conductive fluid medium, the electrode assembly comprising a tissue treatment electrode and a return electrode which is electrically insulated from the tissue treatment electrode by means of an insulation member, the tissue treatment electrode being exposed at the distal end portion of the assembly, and the return electrode having a fluid contact surface spaced proximally from the exposed end of the tissue electrode by the insulation member, the method comprising the steps of:
- controlling the output power of the radio frequency generator to lie within a first output range to operate the apparatus in the tissue desiccation mode and, alternatively, to lie within a second output range to operate the apparatus in the tissue vaporization mode, the first output range being such that the power supplied to the electrode assembly maintains the conductive fluid adjacent to the tissue treatment electrode substantially at boiling point for tissue desiccation without creating a vapour pocket surrounding the tissue treatment electrode, and the second output range is such that the output power supplied to the electrode assembly for vaporization of tissue is such as to maintain a vapour pocket surrounding the tissue treatment electrode; and
reducing the power threshold for vaporization at the tissue treatment electrode when the output power of the radio frequency generator is in the second output range.
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Abstract
An electrosurgical instrument is disclosed for the treatment of tissue in the presence of an electrically-conductive fluid. The instrument comprises an instrument shaft, and a tissue treatment electrode at one end of the shaft, the tissue treatment electrode being constructed to define a plurality of pockets for trapping electrically-conductive fluid. Alternatively, the tissue treatment electrode is made from an electrically-conductive material and is coated with a resistive inert material which is effective to increase the local power density within the tissue treatment electrode.
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Citations
9 Claims
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1. A method of operating an electrosurgical apparatus having at least a tissue desiccation mode and a tissue vaporization mode, the apparatus having a radio frequency generator coupled to an electrode assembly for the treatment of tissue in the presence of an electrically-conductive fluid medium, the electrode assembly comprising a tissue treatment electrode and a return electrode which is electrically insulated from the tissue treatment electrode by means of an insulation member, the tissue treatment electrode being exposed at the distal end portion of the assembly, and the return electrode having a fluid contact surface spaced proximally from the exposed end of the tissue electrode by the insulation member, the method comprising the steps of:
controlling the output power of the radio frequency generator to lie within a first output range to operate the apparatus in the tissue desiccation mode and, alternatively, to lie within a second output range to operate the apparatus in the tissue vaporization mode, the first output range being such that the power supplied to the electrode assembly maintains the conductive fluid adjacent to the tissue treatment electrode substantially at boiling point for tissue desiccation without creating a vapour pocket surrounding the tissue treatment electrode, and the second output range is such that the output power supplied to the electrode assembly for vaporization of tissue is such as to maintain a vapour pocket surrounding the tissue treatment electrode; and
reducing the power threshold for vaporization at the tissue treatment electrode when the output power of the radio frequency generator is in the second output range.- View Dependent Claims (2, 3, 4)
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5. An electrosurgical method comprising the steps of:
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providing an electrosurgical apparatus comprising a radio frequency generator coupled to an electrode assembly comprising a tissue treatment electrode and a return electrode, the tissue treatment electrode being exposed at the distal end portion of the assembly;
introducing the electrode assembly into a selected operation site with the tissue treatment electrode adjacent to the tissue to be treated, and with the tissue and the tissue treatment electrode immersed in a conductive liquid;
activating the generator;
applying sufficient radio frequency power to the electrode assembly to vaporize the conductive liquid surrounding the tissue treatment electrode to maintain a vapour pocket surrounding the tissue treatment electrode; and
reducing the power threshold for vaporization at the tissue treatment electrode by providing the tissue treatment electrode with a coating that increases power dissipation at a boundary layer of the conductive liquid by increasing local power density within the tissue treatment electrode. - View Dependent Claims (6, 7)
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8. The electrosurgical method of claim 8 wherein the increase in local power density increases an interfacing impedance between the tissue treatment electrode and the conductive liquid.
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9. The method of claim 9 wherein the increase in power dissipation leads to a reduction in the power threshold of the tissue treatment electrode.
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Current AssigneeGyrus Medical Limited (Olympus Corporation)
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Original AssigneeGyrus Medical Limited (Olympus Corporation)
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InventorsGoble, Colin Charles Owen, Goble, Nigel Mark
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Primary Examiner(s)PEFFLEY, MICHAEL F
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Application NumberUS09/321,207Time in Patent Office726 DaysField of Search606/32-34, 606/41, 606/42, 606/45-50, 407/100-105, 604/22, 604/114US Class Current128/898CPC Class CodesA61B 18/1206 Generators thereforA61B 18/148 having a short, rigid shaft...A61B 18/1485 having a short rigid shaft ...A61B 2018/00083 low, i.e. electrically insu...A61B 2018/00517 Urinary bladder or urethraA61B 2018/00547 ProstateA61B 2018/00559 Female reproductive organsA61B 2018/00577 AblationA61B 2018/00589 CoagulationA61B 2018/00601 CuttingA61B 2018/00625 VaporizationA61B 2018/00666 using a threshold valueA61B 2018/00678 upperA61B 2018/00702 Power or energyA61B 2018/00708 switching the power on or offA61B 2018/00755 Resistance or impedanceA61B 2018/00875 Resistance or impedanceA61B 2018/00892 VoltageA61B 2018/1213 creating an arcA61B 2018/124 switching the output to dif...View All
