Radio frequency energy delivery system for multipolar electrode catheters
First Claim
1. A radio-frequency ablation system for biological tissues, comprising:
- an electrode catheter having a generally longitudinally extending shaft defining a lumen and an array of externally conductive, individually connected electrodes arranged in spaced serial relation along said shaft;
a plurality of temperature sensors, each thermally associated with a different electrode in said array for providing a temperature signal representative of the temperature of that electrode;
a plurality of RF amplifiers, each electrically connected to a different electrode in said array, each of said RF amplifiers providing drive signals representative of the voltage and current applied to that electrode;
a feedback control network which receives said temperature and drive signals associated with a particular electrode and provides an amplification signal to the RF amplifier connected to that electrode in response to the received temperature and drive signals; and
a RF sine wave oscillator having an output which is separately amplified in phase by each of said RF amplifiers in accordance with the amplification signal from the feedback control network for that RF amplifier, to independently drive each of the electrodes in the array of electrodes in phase with each other.
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Accused Products
Abstract
A radio-frequency ablation system is disclosed in which the power, voltage, or temperature delivered to multiple electrodes may be dynamically controlled, and in which the electrodes may be simultaneously energized in phase with each other to achieve a desired lesion pattern. The system comprises a multiple electrode ablation catheter, each electrode having a temperature sensor operatively associated therewith. Each electrode is energized by its own RF amplifier, and all of the electrodes are driven in phase with each other by a common sine wave oscillator. A feedback network controls the degree of amplification of the separate RF amplifiers. According to a further aspect of the invention, a modular power supply arrangement is disclosed which is configurable to dynamically control the power, voltage, or temperature delivered to multiple electrodes of a multipolar ablation device. An arbitrary number of electrodes may be simultaneously energized in phase with each other to achieve a desired lesion pattern using the modular power supply by providing a sufficient number of removable modules.
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Citations
10 Claims
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1. A radio-frequency ablation system for biological tissues, comprising:
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an electrode catheter having a generally longitudinally extending shaft defining a lumen and an array of externally conductive, individually connected electrodes arranged in spaced serial relation along said shaft; a plurality of temperature sensors, each thermally associated with a different electrode in said array for providing a temperature signal representative of the temperature of that electrode; a plurality of RF amplifiers, each electrically connected to a different electrode in said array, each of said RF amplifiers providing drive signals representative of the voltage and current applied to that electrode; a feedback control network which receives said temperature and drive signals associated with a particular electrode and provides an amplification signal to the RF amplifier connected to that electrode in response to the received temperature and drive signals; and a RF sine wave oscillator having an output which is separately amplified in phase by each of said RF amplifiers in accordance with the amplification signal from the feedback control network for that RF amplifier, to independently drive each of the electrodes in the array of electrodes in phase with each other. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification