Fluid cooled ablation catheter
First Claim
1. A method for controlling the temperature of an energy delivering electrode disposed on an ablation catheter, comprising:
- providing an ablation catheter in the form of a thin, flexible elongate member having disposed at a distal portion thereof at least one energy delivering electrode, the catheter having a fluid delivering lumen associated therewith and being adapted for intravascular delivery to an internal organ and being in electrical communication with an electrosurgical generator unit;
intravascularly delivering the catheter to an internal organ;
delivering electrosurgical energy from the generator unit through the catheter to the energy delivering electrode and adjacent tissue;
measuring the temperature of the energy delivering electrode and generating a signal representative thereof;
comparing the measured temperature of the energy delivering electrode to a predetermined maximum temperature value and generating a signal representative of the difference between the measured temperature and the predetermined temperature;
selectively delivering fluid through the lumen of the catheter at a desired flow rate; and
adjusting the flow rate of fluid through the lumen of the catheter based on the difference between measured temperature and the predetermined temperature to maintain the measured temperature at or below the predetermined temperature.
1 Assignment
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Accused Products
Abstract
A thin, elongate and flexible ablation catheter, suitable for delivery to an internal organ, comprises a fluid delivery lumen centrally located within the catheter, and first and second electrodes disposed on an outer surface of the catheter. The electrodes preferably are helically oriented about the catheter. At least one of the electrodes is in communication with a source of electrosurgical energy so as to deliver ablative electrosurgical energy to tissue. The lumen communicates with a fluid supply source such that fluid is conveyed through the lumen and is discharged to adjacent tissue during the delivery of ablative energy. The fluid delivered through the lumen assists in optimizing the electrode temperature. A method and apparatus is also provided to regulate the fluid flow rate based on monitored electrode temperature and/or tissue impedance.
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Citations
9 Claims
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1. A method for controlling the temperature of an energy delivering electrode disposed on an ablation catheter, comprising:
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providing an ablation catheter in the form of a thin, flexible elongate member having disposed at a distal portion thereof at least one energy delivering electrode, the catheter having a fluid delivering lumen associated therewith and being adapted for intravascular delivery to an internal organ and being in electrical communication with an electrosurgical generator unit; intravascularly delivering the catheter to an internal organ; delivering electrosurgical energy from the generator unit through the catheter to the energy delivering electrode and adjacent tissue; measuring the temperature of the energy delivering electrode and generating a signal representative thereof; comparing the measured temperature of the energy delivering electrode to a predetermined maximum temperature value and generating a signal representative of the difference between the measured temperature and the predetermined temperature; selectively delivering fluid through the lumen of the catheter at a desired flow rate; and adjusting the flow rate of fluid through the lumen of the catheter based on the difference between measured temperature and the predetermined temperature to maintain the measured temperature at or below the predetermined temperature. - View Dependent Claims (2, 3, 4, 5)
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6. A system for controlling the temperature of an energy delivering electrode disposed on an ablation catheter, comprising:
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a thin, flexible elongate catheter having a central lumen disposed therein to enable fluid to be conveyed through the catheter, at a variable rate of flow, for discharge at a distal portion of the catheter, the catheter having at least one energy delivering electrode disposed at a distal portion of the catheter and the catheter having dimensions suitable for intravascular delivery; an electrosurgical generator unit in electrical communication with the catheter for providing a desired electrosurgical energy output to the electrode for delivery to tissue adjacent the electrode; a fluid supply source in communication with the lumen; temperature sensing means associated with the catheter for sensing the temperature of the energy delivering electrode and generating a signal representative of measured electrode temperature; comparator means for comparing the measured electrode temperature and a predetermined maximum temperature value and generating a signal representative of the temperature difference; and a fluid control means for regulating the rate of flow of fluid through the lumen in response to the signal from the comparator means representative of the temperature difference to maintain the measured electrode temperature at or below the predetermined temperature. - View Dependent Claims (7, 8)
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9. A system for controlling the temperature of an energy delivering electrode disposed on an ablation catheter, comprising:
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a thin, flexible elongate catheter having a central lumen disposed therein to enable fluid to be conveyed through the catheter, at a variable flow rate, for discharge at a distal portion of the catheter, the catheter having at least one energy delivering electrode disposed at a distal portion of the catheter and the catheter having dimensions suitable for intravascular delivery; an electrosurgical generator unit in electrical communication with the catheter for supplying electrosurgical energy to the electrode for delivery to tissue adjacent the electrode; a fluid supply source in communication with the lumen; impedance measuring mean for measuring the impedance value of tissue based on the energy applied thereto; impedance comparing means for comparing the measured impedance value of tissue to a predetermined maximum impedance value, the impedance comparing means generating a signal representative of the difference between the measured impedance value and the predetermined maximum in impedance value; and a fluid control means for regulating the rate of flow of fluid through the lumen in response to the signal from the impedance comparing means representative of the impedance difference to maintain the measured impedance value at or below the predetermined maximum impedance value.
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Specification