Refractory period tracking and arrhythmia detection
First Claim
1. A method comprising:
- estimating a length of a refractory period of a heart; and
setting a parameter for delivery of extra-systolic stimulation to the heart based on the estimated length of the refractory period of the heart, wherein estimation the length of the refractory period comprises;
detecting a systolic depolarization of the heart;
delivering a probe pulse to the heart an interval after detection of the systolic depolarization that is less than an extra-systolic interval;
determining whether the probe pulse captured the heart; and
estimating the length of the refractory period based on the determination,wherein delivering a probe pulse comprises delivering a probe pulse every N cardiac cycles, N being an integer greater than one, the method further comprising delivering an extra systolic pulse at the expiration of the extra-systolic interval after detection of a systolic depolarization of the heart during cardiac cycles in which a probe pulse is not delivered.
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Accused Products
Abstract
Techniques and apparatus for estimating the temporal refractory period of a heart, for adjusting a parameter for delivery of extra-systolic stimulation (ESS) therapy and for detecting an arrhythmia during delivery of ESS therapy In some aspects, probe pulses are periodically delivered to estimate the location of the end boundary of the refractory period, and accordingly estimate its length. In some embodiments, the parameter is adjusted based on estimated length of the refractory period. For example, an extra-systolic interval (ESI) for delivery of ESS is adjusted to be a fixed interval longer than estimated lengths of the refractory period. In other aspects, the parameter is adjusted based on a measured delay (or latency) between delivery of an ESS pulse and detection of an evoked response resulting from the pulse. Also, delays between delivery of an ESS pulse and detection of a subsequent depolarization are monitored to detect an arrhythmia.
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Citations
41 Claims
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1. A method comprising:
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estimating a length of a refractory period of a heart; and setting a parameter for delivery of extra-systolic stimulation to the heart based on the estimated length of the refractory period of the heart, wherein estimation the length of the refractory period comprises; detecting a systolic depolarization of the heart; delivering a probe pulse to the heart an interval after detection of the systolic depolarization that is less than an extra-systolic interval; determining whether the probe pulse captured the heart; and
estimating the length of the refractory period based on the determination,wherein delivering a probe pulse comprises delivering a probe pulse every N cardiac cycles, N being an integer greater than one, the method further comprising delivering an extra systolic pulse at the expiration of the extra-systolic interval after detection of a systolic depolarization of the heart during cardiac cycles in which a probe pulse is not delivered. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method comprising:
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estimating a length of a refractory period of a heart; and setting a parameter for delivery of extra-systolic stimulation to the heart based on the estimated length of the refractory period of the heart, wherein estimating the length of the refractory period comprises; detecting a systolic depolarization of the heart; delivering a probe pulse to the heart an interval after detection of the systolic depolarization that is less than an extra-systolic interval; determining whether the probe pulse captured the heart; and
estimating the length of the refractory period based on the determination,wherein delivering a probe pulse comprises; delivering a first probe pulse a first interval after detection of a first systolic depolarization of a first cardiac cycle; delivering a second probe pulse a second interval after detection of a second systolic depolarization of a second cardiac cycle; and determining that the first probe pulse captured the heart and the second probe pulse did not capture the heart, and wherein estimating the length of the refractory period comprises estimating the length of the refractory period as a value between the first and second intervals.
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9. A medical device comprising:
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electrodes; and a processor for controlling delivery of extra-systolic stimulation to a heart of a patient via the electrodes as a function of a parameter, wherein the processor estimates a length of a refractory period of the heart, and sets a value for the parameter bases on the estimated length of the refractory period of the heart, wherein the processor detects a systolic depolarization of the heart via the electrodes, controls delivery of a probe pulse to the heart an interval after detection of the systolic depolarization that is less than an extra-systolic interval, determines whether the probe pulse captured the heart, and estimates the length of the refractory period based on the determination, wherein the processor controls delivery of a probe pulse every N cardiac cycles, N being an integer greater than one, and controls delivery of an extra-systolic pulse, wherein the extra-systolic pulse is delivered at the expiration of the extra-systolic interval after detection of a systolic depolarization of the heart during cardiac cycles in which a probe pulse is not delivered. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A computer-readable medium comprising instructions that cause a programmable processor to:
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estimate a length of a refractory period of a heart; and set a parameter for delivery of extra-systolic stimulation to the heart based on the estimated length of the refractory period of the heart, wherein the instructions the instructions that cause a programmable processor to estimate the length of the refractory period comprise instructions that cause a programmable processor to; detect a systolic depolarization of the heart; control delivery of a probe pulse to the heart an intervsal after detection of the systolic depolarization that is less than an extra-systolic interval; determine whether the probe pulse captured the heart; and
estimate the length of the refractory period based on the determination,wherein the instructions that cause a programmable processor to control delivery of a probe pulses comprise instructions that cause a programmable processor to control delivery of a first probe pulse a first interval after detection of a first systolic depolarization of a first cardiac cycle and a second probe pulse a second interval after detection of a second systolic depolarization of a second cardiac cycle, the medium further comprising instructions that cause a programmable processor to determine that the first probe pulse captured the heart and the second probe pulse did not capture the heart, and wherein the instructions that cause a programmable processor to estimate the length of the refractory period comprise instructions that cause a programmable processor to estimate the length of the refractory period as a value between the first and second intervals. - View Dependent Claims (18, 19, 20, 21)
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22. A method comprising:
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measuring a delay between delivery of a pulse to a heart and detection of an evoked response resulting from delivery of the pulse; and adjusting a parameter for delivery of extra-systolic stimulation to the heart based on the delay, wherein adjusting a parameter comprises adjusting an extra-systolic interval, wherein the pulse is a probe pulse, and wherein the method further comprises; detecting a systolic depolarization of the heart; and delivering the probe pulse an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein adjusting the extra-systolic interval comprises; comparing the delay to a threshold value; and adjusting the extra-systolic interval based on the comparison.
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23. A method comprising:
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measuring a delay between delivery of a pulse to a heart and detection of an evoked response resulting from delivery of the pulse; and adjusting a parameter for delivery of extra-systolic stimulation to the heart based on the delay, wherein adjusting a parameter comprises adjusting an extra-systolic interval, wherein the pulse is a probe pulse, and wherein the method further comprises; detecting a systolic depolarization of the heart; and delivering the probe pulse an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein delivering the probe pulse comprises delivering a probe pulse every N cardiac cycles, N being an integer greater than one, the method further comprising delivering extra-systolic pulses the extra-systolic interval after detection of systolic depolarizations of the heart during cardiac cycles in which a probe pulse is not delivered.
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24. A method comprising
measuring a delay between delivery of a pulse to a heart and detection of an evoked response resulting from delivery of the pulse; - and
adjusting a parameter for delivery of extra-systolic stimulation to the heart based on the delay, wherein adjusting a parameter comprises adjusting an extra-systolic interval, wherein the pulse is a probe, and wherein the method further comprises; detecting a systolic depolarization of the heart; and delivering the probe pulse an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein delivering the probe pulse comprises; delivering a first probe pulse of a pair a first interval after detection of a systolic depolarization of a first cardiac cycle; and delivering a second probe pulse of the pair a second interval after detection of a systolic depolarization of a second cardiac cycle, wherein the second interval is greater than the first interval, and the first and second intervals are less than the extra-systolic interval, wherein measuring a delay between delivery of the probe pulse and detection of the evoked response comprises measuring a first delay subsequent to delivery of the first probe pulse and a second delay subsequent to delivery of the second probe pulse, and wherein adjusting the extra-systolic interval comprises adjusting the extra-systolic interval based on the first and second delays. - View Dependent Claims (25, 26, 27)
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28. A medical device comprising:
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electrodes; and a processor for controlling delivery of pulse and extra-systolic stimulation to a heart of a patient and detect evoked responses via the electrodes, wherein the processor measures a delay between delivery of a pulse to the heart and detection of an evoked response resulting from delivery of the pulse, and adjusts a parameter for delivery of extra-systolic stimulation to the heart based on the delay, wherein the parameter comprises and extra-systolic interval, wherein the pulse is a probe pulse, and the processor detects a systolic depolarization of the heart via the electrodes and controls delivery of the probe pulse to the heart an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein the processor compares the delay to a threshold value, and adjusts the extra-systolic interval based on the comparison.
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29. A medical device comprising:
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electrodes; and a processor for controlling delivery of pulses and extra-systolic stimulation to a heart of a patient and detect evoked responses via the electrodes, wherein the processor measures a delay between delivery of a pulse to the heart and detection of an evoked response resulting from delivery of the pulse, and adjusts a parameter for delivery of extra-systolic stimulation to the heart on the delay, wherein the parameter comprises an extra-systolic interval, wherein the pulse is a probe pulse, and the processor detects a systolic depolarization of the heart via the electrodes and controls delivery of the probe pulse to the heart an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein the processor controls delivery of a probe pulse every N cardiac cycles, N being an integer greater than one, and controls delivery of extra-systolic, pulses wherein the extra-systolic pulse is delivered at the expiration of the extra-systolic interval after detection of systolic depolarizations during cardiac cycles in which a probe pulse is not delivered. - View Dependent Claims (30, 31)
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32. A medical device comprising:
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electrodes; and a processor for controlling delivery of pulses and extra-systolic stimulation to a heart of a patient and detect evoked responses via the electrodes, wherein the processor measures a delay between delivery of a pulse to the heart and detection of an evoked response resulting from delivery of the pulse, and adjusts a parameter for delivery of extra-systolic stimulation to the heart based on the delay, wherein the parameter comprises an extra-systolic interval, wherein the pulse is a probe pulse, and the processor detects a systolic depolarization of the heat via the electrodes and controls delivery of the probe pulse to the heart an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein the processor controls delivery of a first probe pulse of a pair a first interval after detection of a systolic depolarization of a first cardiac cycle, and controls delivery of a second probe pulse of the pair a second interval after a systolic depolarization of a second cardiac cycle, wherein the second interval is greater than the first interval, and the first and second intervals are less than the extra-systolic interval, and wherein the processor measures a first delay subsequent to delivery of the first probe pulse and a second delay subsequent to delivery of the second probe pulse, and adjusts the extra-systolic interval based on the first and second delays. - View Dependent Claims (33, 34, 35)
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36. A computer-readable medium comprising instructions that cause a programmable processor to:
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measure a delay between delivery of a pulse to a heart and detection of an evoked response resulting from delivery of the pulse; and adjust a parameter for delivery of extra-systolic stimulation to heart bases on the delay, wherein the pulse is a probe pulse, and wherein the medium further comprises instructions that cause a programmable processor to; detect a systolic depolarization of the heart; and control delivery of the probe pulse to the heart an interval after detection of the systolic depolarization, the interval less than the extra-systolic interval, wherein the parameter comprises an extra-systolic interval, and wherein the instructions that cause a programmable processor to control delivery of the probe pulse comprise instructions that cause a programmable processor to control delivery of a probe pulse every N cardiac cycles, N being an integer greater than one, the medium further comprising instructions that cause a programmable processor to control delivery of extrasystolic pulses at the expiration of the extra-systolic interval after detection of systolic depolarizations of the heart during cardiac cycles in which a probe pulse is not delivered. - View Dependent Claims (37, 38, 39, 40, 41)
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Specification