Controllable, wearable MRI-compatible cardiac pacemaker with pulse carrying photonic catheter and VOO functionality
First Claim
1. An MRI-compatible wearable cardiac pacemaker, comprising:
- a photonic catheter;
a self-contained electrical power source housed at a proximal end of said photonic catheter;
electrically powered pulsing circuitry housed at said proximal end of said photonic catheter;
first power conversion means for converting the output of said pulsing circuitry to optical energy for transmission through said photonic catheter; and
second power conversion means for converting said optical energy transmitted through said photonic catheter to electrical energy;
electrodes operatively connected to said second power conversion means for receiving said electrical energy and delivering it to cardiac tissue to which said electrodes are adapted to be connected.
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Accused Products
Abstract
A controllable, wearable MRI-compatible, fixed-rate (VOO) pacemaker includes a self-contained power source and a pulse generator housed at the proximal end of a photonic catheter in a first enclosure designed to operate externally of a patient'"'"'s body. Electrical pulses output by the pulse generator are converted into light energy and directed into the proximal end of the photonic catheter. The photonic catheter includes an optical conduction pathway over which is formed a covering of biocompatible material. Light entering the proximal end of the photonic catheter is transmitted through the optical conduction pathway, where it is collected and converted back to electrical energy at a second enclosure located at the distal end of the photonic catheter. The second enclosure houses an opto-electrical transducer that converts the optical pulses to electrical pulses and delivers them to bipolar heart electrodes. One of the electrodes may comprise the second enclosure housing the opto-electrical transducer and the other electrode can be provided by another enclosure that is spaced from the second enclosure.
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Citations
38 Claims
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1. An MRI-compatible wearable cardiac pacemaker, comprising:
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a photonic catheter;
a self-contained electrical power source housed at a proximal end of said photonic catheter;
electrically powered pulsing circuitry housed at said proximal end of said photonic catheter;
first power conversion means for converting the output of said pulsing circuitry to optical energy for transmission through said photonic catheter; and
second power conversion means for converting said optical energy transmitted through said photonic catheter to electrical energy;
electrodes operatively connected to said second power conversion means for receiving said electrical energy and delivering it to cardiac tissue to which said electrodes are adapted to be connected. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 38)
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14. An MRI-compatible wearable cardiac pacemaker, said pacemaker comprising:
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a first enclosure adapted to be located remote from a patient'"'"'s heart and outside the patient'"'"'s body and;
a second enclosure unit adapted to be electrically connected to the patient'"'"'s heart;
an optical conduction pathway disposed between said first and second enclosures;
an optical pulse generating system in said first enclosure operatively connected to a first end of said optical conduction pathway;
an opto-electrical transducer in said second enclosure operatively connected to a second end of said optical conduction pathway;
said optical pulse generating system being adapted to provide periodic optical pulse signals through said optical conduction pathway to said opto-electrical transducer, and said opto-electrical transducer being adapted to convert said optical pulse signals into electrical pulse signals; and
electrodes operatively connected to said opto-electrical transducer for receiving said electrical pulse signals and delivering them to the patient'"'"'s heart.
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37. An MRI-compatible pacemaker, comprising:
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a pulse generating circuit housed in a first enclosure adapted to operate outside a patient'"'"'s body and to generate periodic heart-triggering pulses;
a cardiac electrode system adapted to electrically stimulate a heart in accordance with said heart-triggering pulses; and
an optical system adapted to transport optical signals representing said heart-triggering pulses from said first enclosure to said cardiac electrode system.
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Specification