Adjustable high frequency electrode
First Claim
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1. An adjustable high frequency electrode system comprising:
- a rigid shaft adapted to be inserted into a target tissue of a living body, the rigid shaft having a distal end and a proximal end, the distal end comprising an uninsulated electrode tip;
an insulating covering with a proximal end and a distal end that covers at least a portion of the rigid shaft and at least a portion of the insulating covering can be moved with respect to the rigid shaft so that the exposed surface of the uninsulated electrode tip can be adjusted;
the electrode system being configured to be connected to a high frequency generator so that a high frequency signal output from the high frequency generator can be applied to the target tissue near the uninsulated electrode tip when the rigid shaft is inserted into the living body; and
a spacer between and directly adjacent to a hub of the electrode tip and a hub of the insulating covering, wherein the spacer includes a distal end, a proximal end, and a length between the distal and proximal end of the spacer, wherein the length of the spacer determines the length of the uninsulated electrode tip.
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Abstract
A method and apparatus for application of an electrical signal to neural and other target tissue in the living body.
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Citations
14 Claims
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1. An adjustable high frequency electrode system comprising:
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a rigid shaft adapted to be inserted into a target tissue of a living body, the rigid shaft having a distal end and a proximal end, the distal end comprising an uninsulated electrode tip; an insulating covering with a proximal end and a distal end that covers at least a portion of the rigid shaft and at least a portion of the insulating covering can be moved with respect to the rigid shaft so that the exposed surface of the uninsulated electrode tip can be adjusted; the electrode system being configured to be connected to a high frequency generator so that a high frequency signal output from the high frequency generator can be applied to the target tissue near the uninsulated electrode tip when the rigid shaft is inserted into the living body; and a spacer between and directly adjacent to a hub of the electrode tip and a hub of the insulating covering, wherein the spacer includes a distal end, a proximal end, and a length between the distal and proximal end of the spacer, wherein the length of the spacer determines the length of the uninsulated electrode tip. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 11, 12)
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10. A method of treating target tissue in the living body comprising:
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determining the size of a high frequency electrode needed to treat the target tissue with a high frequency signal output; selecting a high frequency electrode system having a rigid shaft adapted to be inserted into the target tissue, the distal end comprising an uninsulated electrode tip, and an insulating covering that covers at least a portion of the rigid shaft and at least a portion of the insulating covering can be moved with respect to the rigid shaft so that an exposed surface of the uninsulated electrode tip can be adjusted, wherein the electrode system is configured to be connected to a high frequency generator so that the high frequency signal output from the high frequency generator can be applied to a target tissue near the uninsulated electrode tip when the rigid shaft is inserted into a living body; selecting a spacer according to the uninsulated electrode tip length; adjusting the exposed surface according to the size of high frequency electrode; interposing a spacer between and directly adjacent to a hub of the electrode tip and a hub of the insulating covering; and connecting the high frequency electrode system to a high frequency generator to deliver a high frequency signal output to the target tissue through the uninsulated electrode tip.
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13. An adjustable high frequency electrode system comprising:
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a rigid shaft adapted to be inserted into a target tissue of a living body, the rigid shaft having a distal end and a proximal end, the distal end comprising an uninsulated electrode tip; an insulating covering with a proximal end and a distal end that covers at least a portion of the rigid shaft and at least a portion of the insulating covering can be moved with respect to the rigid shaft so that the exposed surface of the uninsulated electrode tip can be adjusted; the electrode system being configured to be connected to a high frequency generator so that a high frequency signal output from the high frequency generator can be applied to the target tissue near the uninsulated electrode tip when the rigid shaft is inserted into the living body; and a set of spacers including spacers of discrete lengths, wherein one or more spacers can be interposed between a hub of the electrode tip and a hub of the insulating covering, and wherein the one or more spacers determines the length of the uninsulated electrode tip.
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14. A method of treating target tissue in the living body comprising:
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determining the size of a high frequency electrode needed to treat the target tissue with a high frequency signal output; selecting a high frequency electrode system having a rigid shaft adapted to be inserted into the target tissue, the distal end comprising an uninsulated electrode tip, and an insulating covering that covers at least a portion of the rigid shaft and at least a portion of the insulating covering can be moved with respect to the rigid shaft so that an exposed surface of the uninsulated electrode tip can be adjusted, wherein the electrode system is configured to be connected to a high frequency generator so that the high frequency signal output from the high frequency generator can be applied to a target tissue near the uninsulated electrode tip when the rigid shaft is inserted into a living body; selecting one or more spacers from a set of spacers according to the uninsulated electrode tip length, wherein the set of spacers includes spacers of discrete lengths; adjusting the exposed surface according to the size of high frequency electrode; and connecting the high frequency electrode system to a high frequency generator to deliver a high frequency signal output to the target tissue through the uninsulated electrode tip.
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Specification