Electrode and associated systems using thermally insulated temperature sensing elements
First Claim
1. A system for supplying radiofrequency energy to ablate endocardial tissue, the system comprisingelectrode means for emitting radiofrequency energy, the electrode means including a distal tip end for contacting endocardial tissue for ablating the tissue, the distal tip end including an open cavity, the electrode means being made of a heat conducting material,temperature sensing means carried within the cavity at the distal tip end of the electrode means, the temperature sensing means includinga sensing tip exposed outside the cavity for contact with the tissue that the distal tip end of the electrode means contacts, the sensing tip being operative for sensing tissue temperature contacting the distal tip end of the electrode means while the electrode means emits radiofrequency energy to ablate the tissue, andthermal insulating means filling the cavity around the temperature sensing means for blocking the conduction of heat energy from the electrode means and the sensing tip, generating means connected to the electrode means for conducting radiofrequency ablating energy to the electrode means,control means for the energy generating means includingmeans for registering the temperature of the endocardial tissue being ablated sensed by the temperature sensing means, andmeans for producing a command signal when the tissue temperature sensed by the sensing means deviates from a predetermined temperature condition.
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Abstract
An ablation electrode carries a temperature sensing element for measuring the temperature of the tissue being ablated. A thermal insulating element associated with the sensing element blocks the transfer of heat energy from between the temperature sensing element and the body. The temperature sensing element therefore measures temperature without being affected by the surrounding thermal mass of the electrode.
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Citations
18 Claims
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1. A system for supplying radiofrequency energy to ablate endocardial tissue, the system comprising
electrode means for emitting radiofrequency energy, the electrode means including a distal tip end for contacting endocardial tissue for ablating the tissue, the distal tip end including an open cavity, the electrode means being made of a heat conducting material, temperature sensing means carried within the cavity at the distal tip end of the electrode means, the temperature sensing means including a sensing tip exposed outside the cavity for contact with the tissue that the distal tip end of the electrode means contacts, the sensing tip being operative for sensing tissue temperature contacting the distal tip end of the electrode means while the electrode means emits radiofrequency energy to ablate the tissue, and thermal insulating means filling the cavity around the temperature sensing means for blocking the conduction of heat energy from the electrode means and the sensing tip, generating means connected to the electrode means for conducting radiofrequency ablating energy to the electrode means, control means for the energy generating means including means for registering the temperature of the endocardial tissue being ablated sensed by the temperature sensing means, and means for producing a command signal when the tissue temperature sensed by the sensing means deviates from a predetermined temperature condition.
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7. A system for supplying energy to ablate tissue within the heart, the system comprising
an electrode element for contacting tissue while emitting energy to ablate the tissue, the electrode element being made of a heat conducting material, a temperature sensing element carried in the electrode element, the temperature sensing element including a sensor having a region for sensing tissue temperature conditions by making thermal conductive contact with tissue, and thermal insulating material in the electrode element around the temperature sensing element, except for the sensor region, for blocking the thermal conduction of heat energy between the electrode element and the sensor to make the sensor region more responsive to sensed tissue temperature conditions than to the thermal mass of the electrode element, generating means connected to the electrode element for conducting ablating energy to the electrode element, control means for the energy generating means including means for registering the temperature of the tissue contacting the sensor, and means for producing a command signal when the tissue temperature sensed by the sensor deviates from a predetermined temperature condition.
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13. A system for supplying energy to ablate tissue within the heart, the system comprising
an electrode element for contacting tissue while emitting energy to ablate the tissue, the electrode element having a thermal mass, a temperature sensing element carried in the electrode element, the temperature sensing element including a sensor having a region for making thermal conductive contact with tissue to sense tissue temperature conditions, and thermal insulating material in the electrode element between the sensor and the thermal mass of the electrode element, except for the sensor region, for thermally insulating the sensor from the thermal mass of the electrode element to make the sensor region more responsive to sensed tissue temperature conditions than to the thermal mass of the electrode element, generating means connected to the electrode means for conducting ablating energy to the electrode means, control means for the energy generating means including means for registering the temperature sensed by the sensor element, and means for producing a command signal when the temperature sensed by the sensor element differs from a predetermined temperature condition.
Specification