Hopping methods for the detection of QRS onset and offset
First Claim
1. A device for detecting a QRS complex within an electrocardiogram, comprising:
- a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram,a processor coupled to the lead, the processor configured to;
(i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples;
(ii) search for a QRS complex within the discrete waveform by performing a stopping test at a plurality of regions within the waveform and identifying a possible QRS region when the stopping test is positive, wherein at least two consecutive non-overlapping regions within the plurality of regions are separated by at least one sample and less than an expected minimum QRS duration.
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Accused Products
Abstract
Disclosed are systems and methods for detecting the QRS portion of an electrocardiogram and also for detect QRS onset/offset points. QRS complexes are identified by testing selected waveform samples to determine if they are in a high curvature region. If a region passes the high curvature test, a verification test is applied to adjacent samples to confirm that the region is within a QRS complex. The search for a QRS onset point begins at an adaptive distance from this region. The curvature of selected regions ahead in the search direction is examined. The search moves past all such high curvature regions. The onset point is then located by searching for a region that is “flat” in either of two senses. First, a region may be locally flat (i.e. small first derivative) in an absolute sense. Second, a region is flat in a relative that further movement away from the interior of the QRS (e.g. toward “earlier” samples) does not result in a significant change in the value of the first derivative. The search is performed by hopping through the waveform samples. Once an onset point is located, the search for an offset point proceeds in a similar manner from a starting point that is an adaptively determined distance from the onset point.
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Citations
20 Claims
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1. A device for detecting a QRS complex within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) search for a QRS complex within the discrete waveform by performing a stopping test at a plurality of regions within the waveform and identifying a possible QRS region when the stopping test is positive, wherein at least two consecutive non-overlapping regions within the plurality of regions are separated by at least one sample and less than an expected minimum QRS duration. - View Dependent Claims (2, 3, 4)
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5. A device for detecting a QRS complex within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determining a plurality of regions within the discrete waveform that are within a corresponding plurality of QRS complexes, wherein each of the plurality of regions may be a variable distance from a QRS fiducial point; (iii) starting from each of the plurality of regions, performing a search for a corresponding QRS marker point that is either a QRS onset point or a QRS offset point.
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6. A device for detecting a QRS marker point within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determine a search start region within a QRS complex that is within the discrete waveform; (iii) starting from the search start region, perform a search for a QRS marker point by computing a first function value at a first QRS region that is a known distance from the search start region, and moving toward the QRS marker point by a distance that is a function of the first function value. - View Dependent Claims (7, 8, 9)
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10. A device for detecting a marker point within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determining a start search region that is within the discrete waveform; (iii) starting from the start search region, moving toward the marker point based on an expected distance between the start search region and the marker point region, thereby moving to an intermediate region; (iv) starting from the intermediate region, performing a search for the marker point, thereby locating the marker point; (v) computing a distance between the marker point and the starting search point; and (vi) based on the distance between the marker point and the starting search point, updating the expected distance between a starting search point region and a marker point region. - View Dependent Claims (11, 12)
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13. A device for detecting a QRS marker point within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determining a search start region within a QRS complex that is within the discrete waveform; (iii) starting from the search start region, performing a search for a QRS onset/offset point by iteratively moving to regions closer to the onset/offset point and stopping the search at a region upon the earlier of; (i) a first derivative function of the region becoming sufficiently small;
(ii) a second derivative function of the region becoming sufficiently small.
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14. A device for detecting a QRS marker point within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determine a search start region within a QRS complex that is within the discrete waveform; (iii) starting from the search start region, sequentially perform a remoteness test at a plurality of regions until a test outcome at a first region indicates that the first region is past all high frequency QRS regions, and thereafter performing a stopping test at a plurality of regions beyond the first region until the marker point has been located. - View Dependent Claims (15, 16)
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17. A device for detecting a QRS marker point within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determine a current region within a QRS complex that is within the discrete waveform; (iii) starting from the current region, sequentially perform a test at a plurality of regions until the earlier of;
(i) a test outcome is positive at a certain region, in which case a new region is moved to;
or (ii) there are no further regions to test, in which case the marker point is the current region; and
wherein at least two consecutive non-overlapping regions within the plurality of regions are separated by at least one sample.
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18. A device for detecting a QRS marker point within an electrocardiogram, comprising:
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a lead comprising two sensors, the lead adapted to be disposed so that it senses an electrocardiogram, a processor coupled to the lead, the processor configured to; (i) obtain a signal from the lead and create therefrom a discrete waveform comprising a plurality of samples; (ii) determine a current region within a QRS complex that is within the discrete waveform; (iii) starting from the current region, sequentially moving to a plurality of regions until a current region is reached at which either;
a first stopping test outcome is positive or a second stopping test outcome is positive, wherein the first stopping test is applied upon moving to a new region and the second test is performed only if the first test is negative, and wherein the second stopping test identifies a point to move to if the second stopping test is negative; and
wherein at least two consecutive regions within the plurality of regions are separated by at least one sample. - View Dependent Claims (19, 20)
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Specification