Systems and methods for detection of VT and VF from remote sensing electrodes
First Claim
1. In an implantable system, a method for monitoring myopotential associated with a sensing vector comprising:
- (a) sensing a cardiac signal using a pair of extracardiac remote sensing electrodes corresponding to the sensing vector;
(b) sampling the cardiac signal to produce a plurality of samples that are representative of a window of the cardiac signal; and
(c) producing a histogram, for the window of the cardiac signal, based on the plurality of samples;
fitting a line to the histogram distribution;
determining a slope of the line fit to the histogram distribution; and
comparing the slope of the line to at least one threshold to determine the level of myopotential.
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Abstract
Methods and systems are provided for performing ventricular arrhythmia monitoring using at least two sensing channels that are each associated with different sensing vectors, for example by different pairs of extracardiac remote sensing electrodes. Myopotential associated with each of the sensing channels in monitored, and a ventricular arrhythmia monitoring mode is selected based thereon (e.g., based on determined myopotential levels). Ventricular arrhythmia monitoring is then performed using the selected monitoring mode. This description is not intended to be a complete description of, or limit the scope of, the invention. Other features, aspects, and objects of the invention can be obtained from a review of the specification, the figures, and the claims.
76 Citations
7 Claims
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1. In an implantable system, a method for monitoring myopotential associated with a sensing vector comprising:
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(a) sensing a cardiac signal using a pair of extracardiac remote sensing electrodes corresponding to the sensing vector; (b) sampling the cardiac signal to produce a plurality of samples that are representative of a window of the cardiac signal; and (c) producing a histogram, for the window of the cardiac signal, based on the plurality of samples;
fitting a line to the histogram distribution;
determining a slope of the line fit to the histogram distribution; and
comparing the slope of the line to at least one threshold to determine the level of myopotential. - View Dependent Claims (2, 3)
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4. An implantable system for detecting myopotential associated with a sensing vector, comprising:
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a sensing channel to sense a cardiac signal using a pair of extracardiac remote sensing electrodes corresponding to the sensing vector; a sampler to sample the cardiac signal to produce a plurality of samples that are representative of a window of the cardiac signal; and a myopotential detector to monitor myopotential based on the plurality of samples, wherein the myopotential detector is configured to; produce a histogram, for the window of the cardiac signal, based on the plurality of samples;
fit a line to the histogram distribution;
determine a slope of the line fit to the histogram distribution; and
compare the slope of the line to at least one threshold to determine the level of myopotential.
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5. In an implantable system, a method for updating at least one parameter that is used for monitoring myopotential associated with a sensing vector corresponding to a pair of extracardiac remote sensing electrodes implanted in a patient, the method comprising:
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determining whether the patient is active; if the patient is not active then determining whether a heart rate of the patient is within an acceptable range; and if the heart rate of the patient is within the acceptable range then updating the at least one parameter. - View Dependent Claims (6)
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7. A method for updating at least one parameter that is used for monitoring myopotential associated with a sensing vector corresponding to a pair of subcutaneous extracardiac electrodes implanted in a patient, the method comprising:
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(a) monitoring whether an R-wave value has changed by at least a specific amount since the at least one parameter was last updated; (b) monitoring the heart rate of the patient; and (c) updating the at least one parameter when the R-wave detection threshold has changed by at least a specific amount since the at least one parameter was last updated and the heart rate of the patient is within an acceptable range.
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Specification