Combination monophasic action potential/ablation catheter and high-performance filter system
First Claim
1. Apparatus for both detecting monophasic action potentials and ablating surface tissue in an in vivo heart of a patient, comprising:
- a catheter having a proximal end and a distal end, said distal end having a terminal tip and an exterior surface, and said catheter being adapted for insertion into a patient for detecting said monophasic action potentials;
a first electrode carried at said distal terminal tip for contacting surface tissue of the heart of the patient for measuring potentials at said surface tissue;
a second electrode carried on said catheter and spaced from said first electrode for supplying a reference potential signal;
a third electrode carried on said catheter adjacent to said first electrode and electrically insulated from said first electrode for providing electromagnetic energy to said surface tissue;
first electrical means coupled to said first and second electrodes for generating signals representing action potentials, andsecond electrical means coupled to said third electrode for providing said electromagnetic energy to said third electrodewherein said third electrode comprises a ring made of a partially conductive material of variable thickness said ring having a proximal end and a distal end, and said thickness of said ring monotonically increasing from the distal end to the proximal end of said ring.
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Accused Products
Abstract
A combination catheter for both detecting monophasic action potentials and ablating surface tissue in an in vivo heart of a patient is provided. The apparatus includes a catheter probe having a terminal tip portion and an electrode carried on the tip such that a portion of the tip electrode is exposed to ambient. A reference electrode is spaced along the tip from the first electrode for supplying a reference potential signal. An ablating electrode is located adjacent to but electrically insulated from both the tip and reference electrodes for providing electromagnetic energy to the tip. The electrodes are electrically connected to the proximal end of the catheter through individual conductors or wires that run through an insulated cable. An electronic filter is provided to permit the recording of MAPs during ablation without radiofrequency interference. The catheter may also include standard mapping and/or pacing electrodes. The catheter may further include a steering mechanism for positioning the catheter at various treatment sites in the heart, and a structure for holding the tip electrode in substantially perpendicular contact with heart tissue with a positive pressure, and for spacing the reference electrode from the heart tissue.
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Citations
8 Claims
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1. Apparatus for both detecting monophasic action potentials and ablating surface tissue in an in vivo heart of a patient, comprising:
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a catheter having a proximal end and a distal end, said distal end having a terminal tip and an exterior surface, and said catheter being adapted for insertion into a patient for detecting said monophasic action potentials; a first electrode carried at said distal terminal tip for contacting surface tissue of the heart of the patient for measuring potentials at said surface tissue; a second electrode carried on said catheter and spaced from said first electrode for supplying a reference potential signal; a third electrode carried on said catheter adjacent to said first electrode and electrically insulated from said first electrode for providing electromagnetic energy to said surface tissue; first electrical means coupled to said first and second electrodes for generating signals representing action potentials, and second electrical means coupled to said third electrode for providing said electromagnetic energy to said third electrode wherein said third electrode comprises a ring made of a partially conductive material of variable thickness said ring having a proximal end and a distal end, and said thickness of said ring monotonically increasing from the distal end to the proximal end of said ring. - View Dependent Claims (2)
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3. A method for detecting monophasic action potentials and ablating surface tissue in an in vivo heart of a patient using a catheter having a proximal end and a distal end, with a first electrode, carried at the distal end, a second electrode carried on a surface of the catheter and spaced from the first electrode, and a third electrode adjacent to but electrically insulated by a skirt member having a thickness of 0.001 to 0.200 inches from the first electrode, including the steps of:
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inserting the distal end into the heart; positioning the distal end in a substantially perpendicular configuration against endocardium of the heart such that the first electrode contacts said endocardium with a force sufficient to depolarize myocardial cells in the vicinity of the first electrode and such that the second electrode does not contact said endocardium; detecting first signals by means of said first and second electrodes, said first signals relating to the monophasic action potentials of the heart; at about the same time as said detecting step is performed, delivering radiofrequency energy to the heart by means of said third electrode, said energy sufficient to ablate the heart tissue; and repeating said detecting and delivering steps until no monophasic action potential signals are detected. - View Dependent Claims (4)
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5. A method for detecting monophasic action potentials and for supplying energy to ablate tissue within the heart comprising:
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introducing a catheter having a distal end in a region of the heart, the distal end of the catheter carrying first electrode means for contacting a tissue region for detecting monophasic action potentials in the contacted tissue region, indifferent second electrode means for supplying a reference potential for the first electrode means and being carried on the catheter spaced from the first electrode means, third electrode means between the first and second electrode means, the third electrode means being positioned close to the first electrode means, the third electrode means being operative for emitting energy to ablate the contacted tissue region, and means for electrically insulating the third electrode means from the first and second electrode means, bringing the first and third electrodes into contact with a tissue region within the heart, operating the first electrode means to detect monophasic action potentials in the contacted tissue region, operating the third electrode means to emit ablating energy to the contacted tissue region simultaneously with like operation of the first electrode means. - View Dependent Claims (6)
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7. A method for detecting monophasic action potentials and ablating tissue in the heart using a catheter having a distal end, with a first electrode carried at the distal end, a second electrode carried on a surface of the catheter and spaced from the first electrode, and a third electrode adjacent to but electrically insulated from the first electrode, including the steps of:
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inserting the distal end into the heart; positioning the distal end in a substantially perpendicular configuration against the endocardium of the heart such that the first electrode contacts the endocardium with a force sufficient to depolarize myocardial cells in the vicinity of the first electrode and such that the second electrode does not contact said endocardium; detecting first signals by means of the first and second electrodes, said first signals relating to the monophasic action potentials of the heart; at about the same time as the detecting step is performed, delivering ablating energy to the heart by means of the third electrode, and repeating the detecting and delivering steps until no monophasic action potential signals are detected. - View Dependent Claims (8)
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Specification