Advanced signal processing methodology for the detection, localization and quantification of acute myocardial ischemia
First Claim
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1. A method of detecting myocardial ischemia from a time-domain ECG signal X(n);
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
providing an ECG sensor;
detecting said ECG signal from said ECG sensor;
generating a decision variable from said ECG signal;
comparing said decision variable to a histogram of previously obtained sensor signal data to obtain a myocardial ischemia quantification index corresponding to a probability of ischemia; and
comparing said quantification index to a selected value to determine the presence of myocardial ischemia.
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Abstract
Monopolar ECG signals are converted into the multichannel spectrum and autocorrelation domains, and different decision variables are identified from the autospectra. Statistically validated threshold levels are used for comparison with the decision variables to determine the probability of normal and ischemic conditions.
207 Citations
14 Claims
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1. A method of detecting myocardial ischemia from a time-domain ECG signal X(n);
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
providing an ECG sensor; detecting said ECG signal from said ECG sensor; generating a decision variable from said ECG signal; comparing said decision variable to a histogram of previously obtained sensor signal data to obtain a myocardial ischemia quantification index corresponding to a probability of ischemia; and comparing said quantification index to a selected value to determine the presence of myocardial ischemia. - View Dependent Claims (2)
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
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3. A method of detecting myocardial ischemia from a time-domain ECG signal X(n);
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
providing an ECG sensor; detecting said ECG signal from said ECG sensor; generating a plurality of decision variables from said ECG signal; comparing said decision variables to at least one histogram of previously obtained sensor signal data to obtain at least one myocardial ischemia quantification index corresponding to a quantification probability of ischemia based on said comparison results; and comparing said quantification index to a selected value to determine the presence of myocardial ischemia.
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
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4. A method of detecting the existence of muscle dysfunction from a unipolar signal X(n);
- n=0,1 . . ., N, representing activation of said muscle, where N is an integer, said method comprising the steps of;
providing an ECG sensor; detecting said unipolar signal from said muscle activation signal sensor; generating a decision variable from said unipolar signal; comparing said decision variable to a threshold value of said decision variable to obtain a muscular dysfunction quantification index corresponding to a quantification probability of the existence of muscle dysfunction; and comparing said quantification index to a selected value to determine the presence of muscle dysfunction. - View Dependent Claims (5, 6, 7, 8)
- n=0,1 . . ., N, representing activation of said muscle, where N is an integer, said method comprising the steps of;
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9. A method of detecting myocardial ischemia from a time-domain ECG signal X(n);
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
providing an ECG sensor; detecting said ECG signal from an ECG sensor; generating a decision variable from said ECG signal; generating a histogram from a plurality of preliminary ECG signals corresponding to both normal and ischemic conditions; comparing said decision variable to said histogram to obtain a myocardial ischemia quantification index corresponding to a quantification probability of ischemia; and comparing said quantification index to a selected value to determine the presence of myocardial ischemia.
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
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10. A method of detecting the existence of muscle dysfunction from a unipolar signal X(n);
- n=0,1, . . . , N, representing activation of said muscle, where N is an integer, said method comprising the steps of;
providing an ECG sensor; detecting said unipolar signal from said muscle activation sensor; generating a histogram from a plurality of preliminary unipolar signals corresponding to both normal and dysfunctional conditions; generating a decision variable from said unipolar signal; comparing said decision variable to said histogram to obtain a muscular dysfunction quantification index corresponding to a quantification probability of the existence of muscular dysfunction; and comparing said quantification index to a selected value to determine the existence of muscle dysfunction.
- n=0,1, . . . , N, representing activation of said muscle, where N is an integer, said method comprising the steps of;
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11. A method of detecting myocardial ischemia from a time-domain ECG signal X(n);
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
providing an ECG sensor; detecting said ECG signal from an ECG sensor; generating a decision variable from said ECG signal; selecting a threshold value for said decision variable corresponding to a probability of correctly detecting myocardial ischemia when myocardial ischemia is present; comparing said decision variable to said threshold value of said decision variable to obtain comparison results; and determining a myocardial ischemia quantification index corresponding to a quantification probability of ischemia based on said comparison results. - View Dependent Claims (12)
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
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13. A method of detecting myocardial ischemia from a time-domain ECG signal X(n);
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
providing an ECG sensor; detecting said ECG signal from said ECG sensor; generating a plurality of decision variables from said ECG signal; combining said decision variables to form a combined decision variable in a multivariate probability space; comparing said combined decision variable to a histogram of a plurality of combined decision variables generated from previously obtained sensor signal data to obtain a myocardial ischemia quantification index corresponding to a quantification probability of ischemia; and comparing said quantification index to a selected value to determine the existence of myocardial ischemia.
- n=0,1, . . . , N, where N is an integer, comprising the steps of;
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14. A method of detecting the existence of muscle dysfunction from a unipolar signal X(n);
- n=0,1, . . . , N, representing activation of said muscle, where N is an integer, said method comprising the steps of;
providing a muscle activation signal sensor; detecting said unipolar signal from said muscle activation sensor; generating a decision variable from said unipolar signal; selecting a threshold value for said decision variable corresponding to a probability of correctly detecting myocardial ischemia when myocardial ischemia is present; comparing said decision variable to said threshold value of said decision variable to obtain comparison results; and determining a muscular dysfunction quantification index corresponding to a quantification probability of the existence of muscle dysfunction based on said comparison results.
- n=0,1, . . . , N, representing activation of said muscle, where N is an integer, said method comprising the steps of;
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Current AssigneeUniversity of Maryland
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Original AssigneeUniversity of Maryland
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InventorsNikias, Chrysostomos L., Siegel, John H.
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Primary Examiner(s)Weinhardt, Robert A.
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Assistant Examiner(s)CHUNG TRANS, XUONG MY
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Application NumberUS07/586,108Time in Patent Office1,516 DaysField of Search364/413.06, 128/702, 128/703, 128/902US Class Current600/509CPC Class CodesA61B 5/287 Holders for multiple electr...A61B 5/349 Detecting specific paramete...A61B 5/7246 using correlation, e.g. tem...Y10S 128/92 Computer assisted medical d...
