System for sensing abnormal heart activity by means of heart rate acceleration and deceleration detection
First Claim
1. An arrhythmia detection system for an automatic defibrillator/cardioverter capable of sensing heart activity and delivering high-energy electrical pulses to the heart in response to an arrhythmia detection, the system comprising:
- ECG input means for receiving an ECG waveform;
R-wave detecting means operatively connected with said ECG input means for detecting the presence of the R-waves;
rate averaging means operatively connected with the R-wave detecting means for determining the average R-wave rate and for providing a rate averaging signal when the average R-wave rate exceeds a predetermined value;
acceleration detector means, operatively connected with said R-wave detecting means, for determining the rate of acceleration of a series of R-waves and for providing a acceleration output signal when the rate of acceleration of the R-waves exceeds a predetermined value;
arrhythmia detection means operatively connected with said rate averaging means and said acceleration detector means for providing an arrhythmia signal to activate a defibrillator/cardioverter pulse generator in response to receipt of the rate averaging signal and the acceleration output signal.
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Accused Products
Abstract
A heart rate acceleration/deceleration detecting system particularly for use with an automatic defibrillator/cardioverter. The detection system detects a series of heart beats and determines, for a group of beats, such as on a beat-by-beat basis, whether the heart rate has accelerated above a first predetermined value. If such acceleration is determined, the system checks to see if the acceleration of the heart beats was followed by an immediate deceleration that exceeds a predetermined value. If a large acceleration followed by an absence of a large deceleration is detected, a signal is provided to an arrhythmia detecting logic circuit as an indication of an arrhythmia that may be appropriate for treatment by the defibrillator/cardioverter. The acceleration detection system is also capable of determining if a large deceleration preceded the detection of the large acceleration. If a large deceleration preceding a large acceleration had been detected, the system assumes that an AGC dropout in a rate detector circuit had occurred and will not provide an output signal to the arrhythmia detecting logic circuit. The system is also capable of detecting premature ventricular contractions by the existence of a large acceleration followed immediately by a large deceleration.
31 Citations
5 Claims
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1. An arrhythmia detection system for an automatic defibrillator/cardioverter capable of sensing heart activity and delivering high-energy electrical pulses to the heart in response to an arrhythmia detection, the system comprising:
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ECG input means for receiving an ECG waveform; R-wave detecting means operatively connected with said ECG input means for detecting the presence of the R-waves; rate averaging means operatively connected with the R-wave detecting means for determining the average R-wave rate and for providing a rate averaging signal when the average R-wave rate exceeds a predetermined value; acceleration detector means, operatively connected with said R-wave detecting means, for determining the rate of acceleration of a series of R-waves and for providing a acceleration output signal when the rate of acceleration of the R-waves exceeds a predetermined value; arrhythmia detection means operatively connected with said rate averaging means and said acceleration detector means for providing an arrhythmia signal to activate a defibrillator/cardioverter pulse generator in response to receipt of the rate averaging signal and the acceleration output signal. - View Dependent Claims (2, 3)
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4. An arrhythmia detection system for an automatic defibrillator/cardioverter capable of sensing heart activity and delivering high-energy electrical pulses to the heart in response to an arrhythmia detection, the system comprising:
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ECG input means for receiving an ECG waveform; R-wave detecting means operatively connected with said ECG input means for detecting the presence of R-waves and for providing an R-wave signal upon such detection; rate averaging means operatively connected with said R-wave detecting means for receiving a series of R-wave signals, for determining the average R-wave rate, and for providing a rate averaging signal when the average R-wave rate exceeds a predetermined R-wave rate value; acceleration detection means operatively connected with said R-wave detecting means for receiving a series of R-wave signals, said acceleration detection means including means for determining at least three successive R-wave rates from the R-wave signals, means for comparing the successive R-wave rates and for providing an acceleration output signal when the second of the successive R-wave rates exceeds the first R-wave rate by a first predetermined value and the second R-wave rate does not exceed the third R-wave rate by a second predetermined value; and arrhythmia detection means operatively connected with said rate averaging means and said acceleration detection means for providing an arhythmia signal to activate a defibrillator/cardioverter pulse generator in response to receipt of the rate averaging signal and the acceleration output signal. - View Dependent Claims (5)
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Specification