Ischemia detection based on combination of parameters associated with different sensors
First Claim
1. A cardiac monitor for estimating the value of a heart signal parameter, the monitor comprising:
- (a) a plurality of sensors for sensing first and second analog signals from a human heart;
(b) a device coupled to the plurality of sensors, the device having an analog-to-digital circuit system contained therein for digitizing the first and second analog signals to produce first and second digitized waveforms;
(c) a processor electrically coupled to the analog-to-digital circuit system, said processor configured to;
(i) compute first and second pluralities of values of a heart signal parameter from the first and second digitized waveforms respectively, wherein first and second subsets of the first and second pluralities of values are characterized by first and second statistical distributions respectively that are characterized by first and second dispersions respectively;
(ii) compute a first metric based on the first plurality of values normalized according to the first dispersion, wherein the first metric is indicative of the distance between at least one of the first plurality of values and a statistical parameter associated with the first statistical distribution;
(iii) compute a second metric based on the second plurality of values normalized according to the second dispersion, wherein the second metric is indicative of the distance between at least one of the second plurality of values and a statistical parameter associated with the second statistical distribution; and
(iv) apply a test to detect a cardiac event, wherein the test is based on a third metric that is a function of both the first and second metrics.
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Accused Products
Abstract
An acute ischemia monitor is disclosed. The monitor, which includes an analog to digital convertor and a processor that performs beat detection, monitors the time course of a heart signal parameter, namely ST segment deviation, computed from an electrocardiogram. The device stores ST deviation statistics for multiple leads. For each lead, upper and lower ST deviation boundaries are computed. For each lead, current ST deviation values are compared with the statistical values to determine a metric indicative of the degree of abnormality of a current ST deviation value. The metric is equal to the difference between the current ST deviation value and the upper or lower boundary, normalized according to the dispersion of the ST deviation. Metrics from different leads are summed and compared to a threshold to determine whether the combined metric is indicative of a cardiac event.
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Citations
20 Claims
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1. A cardiac monitor for estimating the value of a heart signal parameter, the monitor comprising:
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(a) a plurality of sensors for sensing first and second analog signals from a human heart; (b) a device coupled to the plurality of sensors, the device having an analog-to-digital circuit system contained therein for digitizing the first and second analog signals to produce first and second digitized waveforms; (c) a processor electrically coupled to the analog-to-digital circuit system, said processor configured to; (i) compute first and second pluralities of values of a heart signal parameter from the first and second digitized waveforms respectively, wherein first and second subsets of the first and second pluralities of values are characterized by first and second statistical distributions respectively that are characterized by first and second dispersions respectively; (ii) compute a first metric based on the first plurality of values normalized according to the first dispersion, wherein the first metric is indicative of the distance between at least one of the first plurality of values and a statistical parameter associated with the first statistical distribution; (iii) compute a second metric based on the second plurality of values normalized according to the second dispersion, wherein the second metric is indicative of the distance between at least one of the second plurality of values and a statistical parameter associated with the second statistical distribution; and (iv) apply a test to detect a cardiac event, wherein the test is based on a third metric that is a function of both the first and second metrics. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A cardiac monitor for estimating the value of a heart signal parameter, the monitor comprising:
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(a) a plurality of sensors for sensing first and second analog signals from a human heart; (b) a device coupled to the plurality of sensors, the device having an analog-to-digital circuit system contained therein for digitizing the first and second analog signals to produce first and second digitized waveforms; (c) a processor electrically coupled to the analog-to-digital circuit system, said processor configured to; (i) compute first and second pluralities of values of a heart signal parameter from the first and second digitized waveforms respectively, wherein first and second subsets of the first and second pluralities of values are characterized by first and second statistical distributions respectively that are characterized by first and second dispersions respectively; (ii) compute a first metric based on the first plurality of values and a boundary of the first statistical distribution, such that the first metric is indicative of the distance between the boundary of the first statistical distribution and at least one of the first plurality of values; (iii) compute a second metric based on the second plurality of values and a boundary of the second statistical distribution, such that the second metric is indicative of the distance between the boundary of the second statistical distribution and at least one of the second plurality of values; and (iv) apply a test to detect a cardiac event, wherein the test is based on a third metric that is a function of both the first and second metrics. - View Dependent Claims (13, 14, 15)
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16. A cardiac monitor for estimating the value of a heart signal parameter, the monitor comprising:
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(a) a plurality of sensors for sensing first and second analog signals from a human heart; (b) a device coupled to the plurality of sensors, the device having an analog-to-digital circuit system contained therein for digitizing the first and second analog signals to produce first and second digitized waveforms; (c) a processor electrically coupled to the analog-to-digital circuit system, said processor configured to; (i) compute first and second pluralities of values of a heart signal parameter from the first and second digitized waveforms respectively, wherein first and second subsets of the first and second pluralities of values are characterized by first and second statistical distributions respectively; (ii) compute a first value of the heart signal parameter based on at least one of the first plurality of values, wherein the first value is characterized by a polarity depending on whether the first value is above or below a measure of average value of the first statistical distribution; (iii) computing a first metric based on the first value, wherein the value of the first metric depends on the polarity of the first value; (iv) compute a second value of the heart signal parameter based on at least one of the second plurality of values, wherein the second value is characterized by a polarity depending on whether the second value is above or below a measure of average value of the second statistical distribution; (v) computing a second metric based on the second value, wherein the value of the second metric depends on the polarity of the second value; and (vi) apply a test to detect a cardiac event, wherein the test is based on a third metric that is a function of both the first and second metrics. - View Dependent Claims (17, 18, 19, 20)
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Specification