System and method for detection of pacing pulses within ECG signals
First Claim
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1. A system for detecting pacing pulses within an ECG input signal, comprising a high-frequency bandpass filter for filtering the input signal into a high-frequency component representing the energy of the input signal within a high-frequency band;
- a low frequency bandpass filter for filtering the input signal into a low-frequency component representing the energy of the input signal within a low-frequency band;
pulse detection circuitry for detecting high and low-frequency energy pulses within the high and low-frequency components, respectively, of the input signal;
a timer for measuring one or more time intervals between detections of the high and low-frequency energy pulses; and
, logic circuitry for detecting a pacing pulse within the input signal if the detections of the high and low-frequency energy pulses meet specified timing criteria.
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Abstract
A system and method for detecting pacing pulses generated by a cardiac pacemaker within an ECG signal. The method involves decomposing the ECG signal into high and low-frequency components that represent the energy of the input signal in high and low-frequency bands. The timing of energy pulses detected within the high and low-frequency bands are then used to determine whether the pulses may represent a pacing pulse.
137 Citations
20 Claims
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1. A system for detecting pacing pulses within an ECG input signal, comprising a high-frequency bandpass filter for filtering the input signal into a high-frequency component representing the energy of the input signal within a high-frequency band;
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a low frequency bandpass filter for filtering the input signal into a low-frequency component representing the energy of the input signal within a low-frequency band;
pulse detection circuitry for detecting high and low-frequency energy pulses within the high and low-frequency components, respectively, of the input signal;
a timer for measuring one or more time intervals between detections of the high and low-frequency energy pulses; and
,logic circuitry for detecting a pacing pulse within the input signal if the detections of the high and low-frequency energy pulses meet specified timing criteria. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
a peak measurement circuit for further measuring peak amplitude of the high frequency energy pulses;
wherein the pulse detection circuitry senses an RMS level in the input signal and detects energy pulses in the high-frequency band if the high-frequency component of the input signal exceeds a fixed threshold value, a threshold value derived from the sensed RMS level in the input signal, and a threshold value proportional to the peak amplitude of a previously detected high-frequency energy pulse which was part of a detected pacing pulse; and
,wherein the pulse detection circuitry detects an energy pulse in the low-frequency band if the low-frequency component of the input signal exceeds the fixed threshold value.
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15. The system of claim 14 wherein the logic circuitry detects possible rising and falling edges of a pacing pulse when first and second high-frequency energy pulses are detected by the pulse detection circuitry, and further wherein the timing criteria for detection of a pacing pulse includes detection of the second high-frequency energy pulse within specified minimum and maximum time intervals from the detection of the first high-frequency energy pulse.
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16. The system of claim 15 wherein the timing criteria for detecting a pacing pulse includes detection of a low-frequency energy pulse within a specified time interval with respect to detection of a high-frequency energy pulse.
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17. The system of claim 14 wherein threshold value proportional to the peak amplitude of a previously detected high-frequency energy pulse which was part of a detected pacing pulse is updated with each detected pacing pulse.
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18. The system of claim 14 wherein the logic circuitry detects possible rising and falling edges of a pacing pulse when first and second high-frequency energy pulses are detected by the pulse detection circuitry, and further wherein the timing criteria for detection of a pacing pulse includes detection of the second high-frequency energy pulse within a specified minimum time interval from the detection of the first high-frequency energy pulse.
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19. The system of claim 18 wherein the logic circuitry is implemented as a state machine which transitions to different states based upon lapsed time intervals and which of the thresholds are exceeded by the low-frequency and high-frequency components of the input signal at a particular time.
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20. The system of claim 14 wherein the peak measurement circuit includes a sample-and-hold circuit made up of first and second peak detectors which capacitively store a peak voltage presented to their inputs, wherein the first peak detector stores the peak amplitude of each detected energy pulse which then is transferred to the second peak detector if the energy pulse is deemed part of a pacing pulse.
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Current AssigneeCardiac Pacemakers Incorporated (Boston Scientific Corporation)
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Original AssigneeCardiac Pacemakers Incorporated (Boston Scientific Corporation)
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InventorsOrmsby, Peter John, Yonce, David J.
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Primary Examiner(s)Sykes, Angela D.
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Assistant Examiner(s)BRADFORD, RODERICK D
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Application NumberUS10/251,310Publication NumberTime in Patent Office789 DaysField of Search600/509, 600/510, 600/523US Class Current600/510CPC Class CodesA61B 5/30 Input circuits thereforA61B 5/308 for electrocardiography [ECG]A61B 5/7217 of noise originating from a...
