Local lead to improve energy efficiency in implantable wireless acoustic stimulators
First Claim
1. A method of using acoustic energy to stimulate cardiac tissue, comprising:
- subcutaneously implanting a transmitter in an intercostal space, wherein the intercostal space permits an ultrasonic imaging view of the heart;
implanting a receiver at a first cardiac tissue location aligned with the intercostal space;
wherein the receiver receives acoustic energy transmitted by the transmitter and produces a biologically stimulating electrical output in response to the received acoustic energy; and
implanting a stimulating electrode connected to the receiver by a local lead at a second cardiac tissue location, wherein the stimulating electrode receives the biologically stimulating electrical output from the receiver and delivers said output to cardiac tissue, and wherein the first cardiac tissue location is selected to minimize the distance and angle of the acoustic energy transmission from the transmitter to the receiver and the second cardiac tissue location is selected to deliver the stimulating electrical output remote from the housing of the receiver.
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Accused Products
Abstract
A wireless cardiac stimulation device is disclosed comprising a controller-transmitter, a receiver, and a stimulating electrode, wherein the stimulating electrode and the receiver are separately implantable at cardiac tissue locations of the heart and are connected by a local lead. Having separately implantable receiver and stimulating electrodes improves the efficiency of ultrasound mediated wireless stimulation by allowing the receiver to be placed optimally for reception efficiency, thereby resulting in longer battery life, and by allowing the stimulating electrode to be placed optimally for stimulus delivery. Another advantage is a reduced risk of embolization, since the receiver and stimulating electrode ensemble is attached at two locations of the heart wall, with the connecting local leads serving as a safety tether should either the receiver or the stimulating electrode become dislodged.
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Citations
6 Claims
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1. A method of using acoustic energy to stimulate cardiac tissue, comprising:
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subcutaneously implanting a transmitter in an intercostal space, wherein the intercostal space permits an ultrasonic imaging view of the heart; implanting a receiver at a first cardiac tissue location aligned with the intercostal space;
wherein the receiver receives acoustic energy transmitted by the transmitter and produces a biologically stimulating electrical output in response to the received acoustic energy; andimplanting a stimulating electrode connected to the receiver by a local lead at a second cardiac tissue location, wherein the stimulating electrode receives the biologically stimulating electrical output from the receiver and delivers said output to cardiac tissue, and wherein the first cardiac tissue location is selected to minimize the distance and angle of the acoustic energy transmission from the transmitter to the receiver and the second cardiac tissue location is selected to deliver the stimulating electrical output remote from the housing of the receiver. - View Dependent Claims (2, 3)
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4. A method of stimulating cardiac tissue of a patient by converting acoustic energy to electrical energy, comprising:
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transmitting acoustic energy from a subcutaneously implanted transmitter located within an intercostal space of the patient, wherein the intercostal space permits an ultrasonic imaging view of the heart; receiving acoustic energy with a receiver located at a first cardiac location of the patient aligned with the intercostal space; producing a biologically stimulating electrical output with the receiver in response to the received acoustic energy; and delivering the biologically stimulating electrical output via a local lead in communication with the receiver to a stimulating electrode in communication with the local lead, the stimulating electrode implanted at a second cardiac tissue location of the patient, thereby stimulating cardiac tissue. - View Dependent Claims (5, 6)
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Specification