Pacemaker catheter
First Claim
Patent Images
1. In combination, a cardiac pacemaker system having a catheter for insertion into a patient'"'"'s heart, said catheter comprising:
- a single, non-diverging, insulated filament for insertion into the patient'"'"'s heart through the patient'"'"'s vascular system, said filament having a distal end, a proximate end, and a proximal portion between said distal and proximate ends;
first electrode means disposed at said distal end of said filament for sensing and pacing the heartbeat of the ventricle of the patient'"'"'s heart;
second and third longitudinally spaced electrode means disposed on said proximal portion of said filament and longitudinally spaced from said first electrode means and longitudinally spaced from each other from sensing atrial depolarizations having a particular signature indicative of the extracellular wave forms associated with the intracellular action potential in the atrium of the patient'"'"'s heart;
first, second and third electrical conductor means in said catheter;
said first electrical conductor means within said insulated filament for connecting said first electrode means to the cardiac pacer;
said second and third electrical conductor means connecting said spaced second and third electrode means to the cardiac pacer; and
particular longitudinal spacing means for adapting said second and third electrode means to sense and detect the signature indicative of the extracellular potential, as defined by a peak-negative to peak-positive deflection, being propagated along the surface of the atrium of the patient'"'"'s heart, whereby said second and third electrode means transmit input signals indicative of a heart bear p-wave to the cardiac pacer, the pacer including a pulse-generating unit for providing a stimulating electrical pulse to said first electrode in response to the input signals so as to pace the ventricle of the patient'"'"'s heart, wherein said longitudinal spacing means comprise an insulating filament separating said second and third electrode means having a length substantially equal to the length of a peak-negative to peak-positive deflection of the detected extracellular signature associated with the action potential in the atrium of the patient'"'"'s heart.wherein said second and third electrode means comprise electrodes having dimensions adapted to minimize field averaging of a bioelectricwave front corresponding to the particular signature of the action potential traveling in the tissue medium of the patient'"'"'s heart andwherein the surface area of each of said second and third electrodes exposed to the potential transmitting tissue medium is from about 3 mm2 to about 7 mm2.
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Abstract
An optimum placement, shape and orientation of catheter electrodes in a cardiac pacemaker system takes advantage of the peak-positive to peak-negative summative effect of a diphasic depolarization wave front of the P wave necessary to the beating of a heart. Electrode surface areas are maintained in the 4 to 6 mm2 range and disposed so as to minimize signal attenuation from gradient averaging of the depolarizing signature and also to minimize the effect of uncontrollable angular rotation of the cathether.
75 Citations
10 Claims
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1. In combination, a cardiac pacemaker system having a catheter for insertion into a patient'"'"'s heart, said catheter comprising:
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a single, non-diverging, insulated filament for insertion into the patient'"'"'s heart through the patient'"'"'s vascular system, said filament having a distal end, a proximate end, and a proximal portion between said distal and proximate ends; first electrode means disposed at said distal end of said filament for sensing and pacing the heartbeat of the ventricle of the patient'"'"'s heart; second and third longitudinally spaced electrode means disposed on said proximal portion of said filament and longitudinally spaced from said first electrode means and longitudinally spaced from each other from sensing atrial depolarizations having a particular signature indicative of the extracellular wave forms associated with the intracellular action potential in the atrium of the patient'"'"'s heart;
first, second and third electrical conductor means in said catheter;said first electrical conductor means within said insulated filament for connecting said first electrode means to the cardiac pacer;
said second and third electrical conductor means connecting said spaced second and third electrode means to the cardiac pacer; andparticular longitudinal spacing means for adapting said second and third electrode means to sense and detect the signature indicative of the extracellular potential, as defined by a peak-negative to peak-positive deflection, being propagated along the surface of the atrium of the patient'"'"'s heart, whereby said second and third electrode means transmit input signals indicative of a heart bear p-wave to the cardiac pacer, the pacer including a pulse-generating unit for providing a stimulating electrical pulse to said first electrode in response to the input signals so as to pace the ventricle of the patient'"'"'s heart, wherein said longitudinal spacing means comprise an insulating filament separating said second and third electrode means having a length substantially equal to the length of a peak-negative to peak-positive deflection of the detected extracellular signature associated with the action potential in the atrium of the patient'"'"'s heart. wherein said second and third electrode means comprise electrodes having dimensions adapted to minimize field averaging of a bioelectricwave front corresponding to the particular signature of the action potential traveling in the tissue medium of the patient'"'"'s heart and wherein the surface area of each of said second and third electrodes exposed to the potential transmitting tissue medium is from about 3 mm2 to about 7 mm2. - View Dependent Claims (2, 3, 4, 5, 6)
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7. In combination, a cardiac pacemaker system having a cardiac pacer, a catheter for insertion into a patient'"'"'s heart, said catheter comprising:
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a single, non-diverging, insulated filament for insertion into the patient'"'"'s heart through the patient'"'"'s vascular system, said filament having a distal end, a proximate end, and a proximal portion between said distal and proximate ends; first electrode means disposed at said distal end of said filament for sensing and pacing the heartbeat of the ventricle of the patient'"'"'s heart; second and third longitudinally spaced electrode means disposed on said proximal portion of said filament and longitudinally spaced from said first electrode means and longitudinally spaced from each other for sensing atrial depolarizations having a particular signature indicative of the extracellular wave forms associated with the intracellular action potential in the atrium of the patient'"'"'s heart;
first, second and third electrical conductor means in said catheter;said first electrical conductor means within said insulated filament for connecting said first electrode means to the cardiac pacer;
said second and third electrical conductor means connecting said spaced second and third electrode means to the cardiac pacer; andparticular longitudinal spacing means for adapting said second and third electrode means to sense and detect the signature indicative of the extracellular potential, as defined by a peak-negative to peak-positive deflection, being propagated along the surface of the atrium of the patient'"'"'s heart, whereby said second and third electrode means transmit input signals indicative of a heartbeat p-wave to the cardiac pacer, the pacer including a pulse-generating unit for providing a stimulating electrical pulse to said first electrode in response to the input signals so as to pace the ventricle of the patient'"'"'s heart, wherein said longitudinal spacing means comprise an insulating filament separating said second and third electrode means having a length substantially equal to the length of a peak-negative to peak-positive deflection of the detected extracellular signature associated with the action potential in the atrium of the patient'"'"'s heart, wherein said second and third electrode means comprise electrodes having dimensions adapted to minimize field averaging of a bioelectric wave front corresponding to the particular signature of the action potential traveling in the tissue medium of the patient'"'"'s heart and wherein said surface area of each of said electrodes exposed to the potential transmitting tissue medium is from about 3 mm2 to about 7 mm2.
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8. In combination, a cardiac pacemaker system having a cardiac pacer, a catheter for insertion into a patient'"'"'s heart, said catheter comprising:
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a single, non-diverging, insulated filament for insertion into the patient'"'"'s heart through the patient'"'"'s vascular system, said filament having a distal end, a proximate end, and a proximal portion between said distal and proximate ends; first electrode means disposed at said distal end of said filament for sensing and pacing the heartbeat of the ventricle of the patient'"'"'s heart; second and third longitudinally spaced electrode means disposed on said proximal portion of said filament and longitudinally spaced from said first electrode means and longitudinally spaced from each other for sensing atrial depolarizations having a particular signature indicative of the extracellular wave forms associated with the intracellular action potential in the atrium of the patient'"'"'s heart;
first, second and third electrical conductor means in said catheter;said first electrical conductor means within said insulated filament for connecting said first electrode means to the cardiac pacer;
said second and third electrical conductor means connecting said spaced second and third electrode means to the cardiac pacer; andparticular longitudinal spacing means and adapting said second and third electrode means to sense and detect the signature indicative of the extracellular potential, as defined by a peak-negative to peak-positive deflection, being propagated along the surface of the atrium of the patient'"'"'s heart, whereby said second and third electrode mans transmit input signals indicative of a heartbeat p-wave to the cardiac pacer, the pacer including a pulse-generating unit for providing a stimulating electrical pulse to said first electrode in response to the input signals so as to pace the ventricle of the patient'"'"'s heart, wherein said longitudinal spacing means comprise an insulating filament separating said second and third electrode means having a length substantially equal to the length of a peak-negative to peak-positive deflection of the detected extracellular signature associated with the action potential in the atrium of the patient'"'"'s heart, wherein said second and third electrode means comprise electrodes having dimensions adapted to minimize field averaging of the bioelectric wave front corresponding to the particular signature of the action potential traveling in the tissue medium of the patient'"'"'s heart, wherein said electrodes further comprise electrodes disposed on opposite sides of said catheter filament and longitudinally separated by said insulated filament having a length of from about 1 mm to about 6 mm, wherein said electrodes are longitudinally separated by said insulated filament having a length of from about 2 mm to about 3 mm, and wherein said electrode surface area is from about 4 mm2 and about 6 mm2.
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9. In combination, a cardiac pacemaker system having a cardiac pacer, a catheter for insertion into a patient'"'"'s heart, said catheter comprising:
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a single, non-diverging, insulated filament for insertion into the patient'"'"'s heart through the patient'"'"'s vascular system, said filament having a distal end, a proximate end, and a proximal portion between said distal and proximate ends; first electrode means disposed at said distal end of said filament for sensing and pacing the heartbeat of the ventricle of the patient'"'"'s heart; second and third longitudinally spaced electrode means disposed on said proximal portion of said filament and longitudinally spaced from said first electrode means and longitudinally spaced from each other for sensing atrial depolarizations having a particular signature indicative of the extracellular wave forms associated with the intracellular action potential in the atrium of the patient'"'"'s heart;
first, second and third electrical conductor means in said catheter;said first electrical conductor means within said insulated filament for connecting said first electrode means to the cardiac pacer;
said second and third electrical conductor means connecting said spaced second and third electrode means to the cardiac pacer; andparticular longitudinal spacing means for adapting said second and third electrode means to sense and detect the signature indicative of the extracellular potential, as defined by a peak-negative to peak-positive deflection, being propagated along the surface of the atrium of the patient'"'"'s heart, whereby said second and third electrode means transmit input signals indicative of a heartbeat p-wave to the cardiac pacer, the pacer including a pulse-generating unit for providing a stimulating electrical pulse to said first electrode in response to the input signals so as to pace the ventricle of the patient'"'"'s heart, wherein said longitudinal spacing means comprise an insulating filament separating said second and third electrode means having a length substantially equal to the length of a peak-negative to peak-positive deflection of the detected extracellular signature associated with the action potential in the atrium of the patient'"'"'s heart, wherein said second and third electrode means comprise electrodes having dimensions adapted to minimize field averaging of a bioelectric wave front corresponding to the particular signature of the action potential traveling in the tissue medium of the patient'"'"'s heart and wherein the surface area of each of said second and third electrodes exposed to the potential transmitting tissue medium is from about 3 mm2 to about 7 mm2 and wherein said electrodes further comprise electrodes disposed on the same side of said catheter filament and said electrodes are separated by said insulated filament having a length of from about 1 mm to about 6 mm.
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10. In combination, a cardiac pacemaker system having a cardiac pacer, a catheter for insertion into a patient'"'"'s heart, said catheter comprising:
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a single, non-diverging, insulated filament for insertion into the patient'"'"'s heart through the patient'"'"'s vascular system, said filament having a distal end, a proximate end, and a proximal portion between said distal and proximate ends; first electrode means disposed at said distal end of said filament for sensing and pacing the heartbeat of the ventricle of the patient'"'"'s heart; second and third longitudinally spaced electrode means disposed on said proximal portion of said filament and longitudinally spaced from said first electrode means and longitudinally spaced from each other for sensing atrial depolarizations having a particular signature indicative of the extracellular wave forms associated with the intracellular action potential in the atrium of the patient'"'"'s heart;
first, second and third electrical conductor means in said catheter;said first electrical conductor means within said insulated filament for connecting said first electrode means to the cardiac pacer;
said second and third electrical conductor means connecting said spaced second and third electrode means to the cardiac pacer; andparticular longitudinal spacing means for adapting said second and third electrode means to sense and detect the signature indicative of the extracellular potential, as defined by a peak-negative to peak-positive deflection, being propagated along the surface of the atrium of the patient'"'"'s heart, whereby said second and third electrode means transmit input signals indicative of a heartbeat p-wave to the cardiac pacer, the pacer including a pulse-generating unit for providing a stimulating electrical pulse to said first electrode in response to the input signals so as to pace the ventricle of the patient'"'"'s heart, wherein said longitudinal spacing means comprise an insulating filament separating said second and third electrode means having a length substantially equal to the length of a peak-negative to peak-positive deflection of the detected extracellular signature associated with the action potential in the atrium of the patient'"'"'s heart, wherein said second and third electrode means comprise electrodes having dimensions adapted to minimize field averaging of a bioelectric wave front corresponding to the particular signature of the action potential traveling in the tissue medium of the patient'"'"'s heart wherein said electrodes further comprise electrodes disposed on opposite sides of said catheter filament and longitudinally separated by said insulated filament having a length of from about 1 mm to about 6 mm, wherein said longitudinally separated electrodes extend substantially one-half circumference around said catheter filament, and wherein said electrode surface are is from about 4 mm2 to about 6 mm2.
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Specification