HEART RATE CORRECTION SYSTEM AND METHODS FOR THE DETECTION OF CARDIAC EVENTS
First Claim
1. A cardiac event detection system for detecting a cardiac event in a patient, comprising:
- (a) at least two sensors for sensing an analog signal from said patient'"'"'s heart;
(b) a device coupled to said sensors, said device having an analog-to-digital circuit system contained therein for digitizing said electrical signal to produce a digitized waveform;
(c) a processor electrically coupled to said analog-to-digital circuit system, said processor configured to;
(i) compute from the digitized waveform both heart rate data and parameter value data, thereby generating a plurality of raw trajectories of parameter values as a function of heart rate;
(ii) process the plurality of raw trajectories to generate a plurality of processed trajectories of parameter values as a function of heart rate, wherein each processed trajectory has reduced high frequency components compared to its corresponding raw trajectory;
(ii) based on the plurality of processed trajectories, generate upper and lower normal boundaries of the value of the parameter as a function of heart rate;
(iv) perform a cardiac event detection test that involves comparing a value of the parameter with its associated heart rate dependent upper and lower normal boundaries.
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Abstract
A device for detecting a cardiac event is disclosed. Detection of an event is based on a test applied to a parameter whose value varies according to heart rate. Both the parameter value and heart rate (RR interval) are filtered with an exponential average filter. From these filtered values, the average change in the parameter and the RR interval are also computed with an exponential average filter. Before computing the average change in the parameter, large changes in the parameter over short times, which may be caused by body position shifts, are attenuated are removed, so that the average change represents an average of small/smooth changes in the parameter'"'"'s value that are characteristic of acute ischemia, one of the cardiac events that may be detected. The test to detect the cardiac event depends on the heart rate, the difference between the parameter'"'"'s value and its upper and lower normal values, and its average change over time, adjusted for heart rate changes. The upper and lower normal parameter values as a function of heart rate are determined from long term stored data of the filtered RR valuse and parameter values. Hysteeresis related data and transitory deviations from normal (e.g. vasospasm related data) are excluded from the computation of normal upper and lower parameter bounds.
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Citations
11 Claims
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1. A cardiac event detection system for detecting a cardiac event in a patient, comprising:
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(a) at least two sensors for sensing an analog signal from said patient'"'"'s heart; (b) a device coupled to said sensors, said device having an analog-to-digital circuit system contained therein for digitizing said electrical signal to produce a digitized waveform; (c) a processor electrically coupled to said analog-to-digital circuit system, said processor configured to; (i) compute from the digitized waveform both heart rate data and parameter value data, thereby generating a plurality of raw trajectories of parameter values as a function of heart rate; (ii) process the plurality of raw trajectories to generate a plurality of processed trajectories of parameter values as a function of heart rate, wherein each processed trajectory has reduced high frequency components compared to its corresponding raw trajectory; (ii) based on the plurality of processed trajectories, generate upper and lower normal boundaries of the value of the parameter as a function of heart rate; (iv) perform a cardiac event detection test that involves comparing a value of the parameter with its associated heart rate dependent upper and lower normal boundaries. - View Dependent Claims (2)
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3. A cardiac event detection system for detecting a cardiac event in a patient, comprising:
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(a) at least two sensors for sensing an analog signal from said patient'"'"'s heart; (b) a device coupled to said sensors, said device having an analog-to-digital circuit system contained therein for digitizing said electrical signal to produce a digitized waveform of a heart rate of said patient over a plurality of heart beats, said heart rate defining a first parameter; (c) a processor electrically coupled to said analog-to-digital circuit system, said processor configured for; (i) computing both heart rate time series data and a second parameter value data from the digitized waveform over said plurality of heart beats; (ii) low pass filtering and averaging of the heart rate time series data and the second parameter value data, thereby producing filtered and averaged heart rate time series data and filtered parameter value data; (iii) performing a cardiac event detection test that involves comparing the filtered parameter value data of at least one beat with upper and lower boundary values that are determined from upper and lower normal boundaries according to the filtered and averaged heart rate time series data. - View Dependent Claims (4)
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5. A cardiac event detection system for detecting a cardiac event in a patient, comprising:
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(a) at least two sensors for sensing an analog signal from said patient'"'"'s heart; (b) a device coupled to said sensors, said device having an analog-to-digital circuit system contained therein for digitizing said electrical signal to produce a digitized waveform; (c) a processor electrically coupled to said analog-to-digital circuit system, said processor configured to; (i) compute from the digitized waveform both heart rate data and parameter value data; (ii) select certain parameter value data associated with normal sinus rhythm beats to be excluded from a determination of upper and lower normal bounds of the value of the parameter as a function of heart rate; (iii) based on the heart rate data and parameter value data other than the parameter value data selected for exclusion, generate upper and lower normal bounds of the value of the parameter as a function of heart rate; (iv) perform a cardiac event detection test that involves comparing a value of the parameter with its associated heart rate dependent upper and lower normal bounds. - View Dependent Claims (6, 7)
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8. A cardiac event detection system for detecting a cardiac event in a patient, comprising:
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(a) at least two sensors for sensing an analog signal from said patient'"'"'s heart; (b) a device coupled to said sensors, said device having an analog-to-digital circuit system contained therein for digitizing said electrical signal to produce a digitized waveform; (c) a processor electrically coupled to said analog-to-digital circuit system, said processor configured to; (i) compute from the digitized waveform heart rate data; (ii) low pass filter the heart rate data, thereby producing filtered heart rate data; (iii) compute a change in the heart rate from the filtered heart rate data; (iv) based on the computed change in heart rate, perform a cardiac event detection test. - View Dependent Claims (9)
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10. A cardiac event detection system for detecting a cardiac event in a patient, comprising:
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(a) at least two sensors for sensing an analog signal from said patient'"'"'s heart; (b) a device coupled to said sensors, said device having an analog-to-digital circuit system contained therein for digitizing said electrical signal to produce a digitized waveform; (c) a processor electrically coupled to said analog-to-digital circuit system, said processor configured to; (i) compute from the digitized waveform both heart rate data and parameter value data; (ii) compute the value of a function of changes in the value of the parameter; (iii) correcting the value of the function according to a change in heart rate, thereby generating a corrected function value (iii) perform a cardiac event detection test based on the corrected function value. - View Dependent Claims (11)
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Specification