Ablation system, methods, and controllers
First Claim
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1. A method of determining a common path impedance in a multi-electrode ablation system using a single current sensor in a common return path, said method comprising:
- measuring, during a measurement period, a first current through a common return path for the system when a first voltage is applied to a first electrode;
measuring, during the measurement period, a second current through the common return path when a second voltage is applied to a second electrode;
measuring, during the measurement period, a third current through the common return path when a third voltage is applied concurrently to the first electrode and the second electrode;
determining a common path impedance based at least in part on the first voltage and the first current, the second voltage and the second current, and the third voltage and the third current;
determining a therapeutic impedance for the first electrode by subtracting the common path impedance from a first branch resistance for the first electrode;
determining a therapeutic impedance for the second electrode by subtracting the common path impedance from a second branch resistance for the second electrode;
determining, after the measurement period, based on the first electrode therapeutic impedance and the second electrode therapeutic impedance, an amount of energy dissipated through each of the first and second electrodes during the measurement period; and
calculating, based on the amount of energy dissipated through each of the first and second electrodes during the measurement period, a remaining on time for each of the first and second electrodes, wherein the remaining on time is an amount of time that the associated electrode should be activated during an output period that follows the measurement period in order for the associated electrode to dissipate a predetermined total amount of energy over the measurement period and the output period.
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Abstract
In a multi-electrode ablation system, method, and controller, the controller is configured to measure a first current through a common return path when a first voltage is applied by a power supply to a first electrode of a plurality of electrodes, measure a second current through the common return path when a second voltage is applied by the power supply to a second electrode of the plurality of electrodes, measure a third current through the common return path when a third voltage is applied by the power supply concurrently to the first electrode and the second electrode, and determine a common path impedance based at least in part on the first voltage and the first current, the second voltage and the second current, and the third voltage and the third current.
142 Citations
16 Claims
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1. A method of determining a common path impedance in a multi-electrode ablation system using a single current sensor in a common return path, said method comprising:
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measuring, during a measurement period, a first current through a common return path for the system when a first voltage is applied to a first electrode; measuring, during the measurement period, a second current through the common return path when a second voltage is applied to a second electrode; measuring, during the measurement period, a third current through the common return path when a third voltage is applied concurrently to the first electrode and the second electrode; determining a common path impedance based at least in part on the first voltage and the first current, the second voltage and the second current, and the third voltage and the third current; determining a therapeutic impedance for the first electrode by subtracting the common path impedance from a first branch resistance for the first electrode; determining a therapeutic impedance for the second electrode by subtracting the common path impedance from a second branch resistance for the second electrode; determining, after the measurement period, based on the first electrode therapeutic impedance and the second electrode therapeutic impedance, an amount of energy dissipated through each of the first and second electrodes during the measurement period; and calculating, based on the amount of energy dissipated through each of the first and second electrodes during the measurement period, a remaining on time for each of the first and second electrodes, wherein the remaining on time is an amount of time that the associated electrode should be activated during an output period that follows the measurement period in order for the associated electrode to dissipate a predetermined total amount of energy over the measurement period and the output period. - View Dependent Claims (2, 3, 4, 5, 14)
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6. A multi-electrode ablation system comprising:
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a power supply configured to be coupled to a plurality of electrodes by a common return path; and a controller configured to; measure, during a measurement period, a first current through the common return path when a first voltage is applied by the power supply to a first electrode of the plurality of electrodes; measure, during the measurement period, a second current through the common return path when a second voltage is applied by the power supply to a second electrode of the plurality of electrodes; measure, during the measurement period, a third current through the common return path when a third voltage is applied by the power supply concurrently to the first electrode and the second electrode; determine a common path impedance based at least in part on the first voltage and the first current, the second voltage and the second current, and the third voltage and the third current; determine a therapeutic impedance for the first electrode by subtracting the common path impedance from a first branch resistance for the first electrode; determine a therapeutic impedance for the second electrode by subtracting the common path impedance from a second branch resistance for the second electrode; and determine, after the measurement period, based on the first electrode therapeutic impedance and the second electrode therapeutic impedance, an amount of energy dissipated through each of the first and second electrodes during the measurement period; and calculate, based on the amount of energy dissipated through each of the first and second electrodes during the measurement period, a remaining on time for each of the first and second electrodes, wherein the remaining on time is an amount of time that the associated electrode should be activated during an output period that follows the measurement period in order for the associated electrode to dissipate a predetermined total amount of energy over the measurement period and the output period. - View Dependent Claims (7, 8, 9, 10, 15)
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11. A controller for a multi-electrode ablation system including a plurality of electrodes and a power supply, the plurality of electrodes coupled to the power supply by a common return path, the controller comprising:
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a processor; and a memory device, the memory device including instructions that, when executed by the processor, cause the processor to; measure, during a measurement period, a first current through the common return path when a first voltage is applied to a first electrode of the plurality of electrodes; measure, during the measurement period, a second current through the common return path when a second voltage is applied to a second electrode of the plurality of electrodes; measure, during the measurement period, a third current through the common return path when a third voltage is applied concurrently to the first electrode and the second electrode; determine a common path impedance based on the first voltage and the first current, the second voltage and the second current, and the third voltage and the third current; determine a therapeutic impedance for the first electrode by subtracting the common path impedance from a first branch resistance for the first electrode; determine a therapeutic impedance for the second electrode by subtracting the common path impedance from a second branch resistance for the second electrode; determine, after the measurement period, based on the first electrode therapeutic impedance and the second electrode therapeutic impedance, an amount of energy dissipated through each of the first and second electrodes during the measurement period; and calculate, based on the amount of energy dissipated through each of the first and second electrodes during the measurement period, a remaining on time for each of the first and second electrodes, wherein the remaining on time is an amount of time that the associated electrode should be activated during an output period that follows the measurement period in order for the associated electrode to dissipate a predetermined total amount of energy over the measurement period and the output period. - View Dependent Claims (12, 13, 16)
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Specification
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Current AssigneeSt. Jude Medical Cardiology Division Incorporated (Abbott Laboratories Incorporated)
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Original AssigneeSt. Jude Medical Cardiology Division Incorporated (Abbott Laboratories Incorporated)
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InventorsBrotz, Joseph Allen, Hein, John Eric, Froehlich, Raymond Vincent, Barnier, Joseph William
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Primary Examiner(s)FOWLER, DANIEL WAYNE
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Application NumberUS14/204,193Publication NumberTime in Patent Office1,232 DaysField of SearchUS Class CurrentCPC Class CodesA61B 18/12 by passing a current throug...A61B 18/1206 Generators thereforA61B 18/1492 having a flexible, catheter...A61B 2018/00267 having a basket shaped stru...A61B 2018/00577 AblationA61B 2018/00654 with individual control of ...A61B 2018/00666 using a threshold valueA61B 2018/00702 Power or energyA61B 2018/00714 TemperatureA61B 2018/00779 Power or energyA61B 2018/00797 measured by multiple temper...A61B 2018/00892 VoltageA61B 2018/00898 Alarms or notifications cre...A61B 2018/00988 Means for storing informati...H03L 7/091 the phase or frequency dete...H04L 7/06 the synchronisation signals...
