Method and apparatus for morphology-based arrhythmia classification using cardiac and other physiological signals

US 8,506,500 B2
Filed: 03/08/2011
Issued: 08/13/2013
Est. Priority Date: 12/22/2005
Status: Expired due to Fees

First Claim

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1. A tachyarrhythmia detection and classification system, comprising:

a cardiac sensing circuit configured to sense a cardiac signal;

a hemodynamic sensor configured to sense a hemodynamic signal;

a tachyarrhythmia detector coupled to the cardiac sensing circuit, the tachyarrhythmia detector configured to detect a tachyarrhythmia episode using the cardiac signal;

a physiological parameter generator coupled to the physiological sensor, the physiological parameter generator configured to measure an arrhythmic hemodynamic parameter from the hemodynamic signal during the detected tachyarrhythmia episode; and

a morphology-based tachyarrhythmia classification module coupled to the cardiac sensing circuit, the physiological parameter generator, and the tachyarrhythmia detector, the morphology-based tachyarrhythmia classification module configured to extract arrhythmic morphological features of an arrhythmic heart beat of the detected tachyarrhythmia episode from the cardiac signal, compute a measure of similarity between the extracted arrhythmic morphological features of the arrhythmic heart beat and template morphological features of a template heart beat, and compare the computed measure of similarity to a beat classification threshold to classify the arrhythmic heart beat, the morphology-based tachyarrhythmia classification module including a threshold generator configured to dynamically adjust the beat classification threshold using the arrhythmic hemodynamic parameter and a template hemodynamic parameter,wherein the hemodynamic signal comprises at least one of an impedance signal indicative of a transthoracic impedance or a cardiac impedance, a pressure signal indicative of an arterial pressure, a signal indicative of blood flow, a signal indicative of heart sounds, an oximetry signal indicative of blood oxygenation, a plethysmographic signal indicative of cardiac output, a respiratory signal, or a cardiac contractility signal, and the hemodynamic sensor comprises at least one of an impedance sensor configured to sense the impedance signal, a pressure sensor configured to sense the pressure signal, a flow sensor configured to sense the signal indicative of blood flow, a heart sound sensor configured to sense the signal indicative of heart sounds, a pulse oximetry sensor configured to sense the oximetry signal, a photoplethysmography sensor configured to sense the plethysmo graphic signal, a respiratory sensor configured to sense the respiratory signal, or a cardiac contractility sensor configured to sense the cardiac contractility signal.

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Abstract

A tachyarrhythmia detection and classification system classifies tachyarrhythmias based on an analysis of morphological features of a cardiac signal enhanced by using one or more physiological parameters indicative of hemodynamic stability and/or activity level. The tachyarrhythmia detection and classification system computes a measure of similarity between an arrhythmic waveform of the cardiac signal, a template waveform for that cardiac signal, such as a correlation coefficient representative of the correlation between morphological features of the arrhythmic waveform and morphological features of the template waveform. A detected tachyarrhythmia episode is classified by comparing the measure of similarity to a threshold that is dynamically adjusted using the one or more physiological parameters.

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20 Claims

1. A tachyarrhythmia detection and classification system, comprising:
- a cardiac sensing circuit configured to sense a cardiac signal;
  
  a hemodynamic sensor configured to sense a hemodynamic signal;
  
  a tachyarrhythmia detector coupled to the cardiac sensing circuit, the tachyarrhythmia detector configured to detect a tachyarrhythmia episode using the cardiac signal;
  
  a physiological parameter generator coupled to the physiological sensor, the physiological parameter generator configured to measure an arrhythmic hemodynamic parameter from the hemodynamic signal during the detected tachyarrhythmia episode; and
  
  a morphology-based tachyarrhythmia classification module coupled to the cardiac sensing circuit, the physiological parameter generator, and the tachyarrhythmia detector, the morphology-based tachyarrhythmia classification module configured to extract arrhythmic morphological features of an arrhythmic heart beat of the detected tachyarrhythmia episode from the cardiac signal, compute a measure of similarity between the extracted arrhythmic morphological features of the arrhythmic heart beat and template morphological features of a template heart beat, and compare the computed measure of similarity to a beat classification threshold to classify the arrhythmic heart beat, the morphology-based tachyarrhythmia classification module including a threshold generator configured to dynamically adjust the beat classification threshold using the arrhythmic hemodynamic parameter and a template hemodynamic parameter,wherein the hemodynamic signal comprises at least one of an impedance signal indicative of a transthoracic impedance or a cardiac impedance, a pressure signal indicative of an arterial pressure, a signal indicative of blood flow, a signal indicative of heart sounds, an oximetry signal indicative of blood oxygenation, a plethysmographic signal indicative of cardiac output, a respiratory signal, or a cardiac contractility signal, and the hemodynamic sensor comprises at least one of an impedance sensor configured to sense the impedance signal, a pressure sensor configured to sense the pressure signal, a flow sensor configured to sense the signal indicative of blood flow, a heart sound sensor configured to sense the signal indicative of heart sounds, a pulse oximetry sensor configured to sense the oximetry signal, a photoplethysmography sensor configured to sense the plethysmo graphic signal, a respiratory sensor configured to sense the respiratory signal, or a cardiac contractility sensor configured to sense the cardiac contractility signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The system of claim 1, wherein the hemodynamic signal comprises the impedance signal, and the hemodynamic sensor comprises the impedance sensor.
  - 3. The system of claim 2, wherein the physiological parameter generator is configured to measure arrhythmic stroke impedance from the impedance signal during the detected tachyarrhythmia episode, the stroke impedance being a difference between a maximum impedance and a minimum impedance over a cardiac cycle.
  - 4. The system of claim 1, wherein the hemodynamic signal comprises the pressure signal, and the hemodynamic sensor comprises the pressure sensor.
  - 5. The system of claim 4, wherein the pressure signal comprises a pulmonary artery pressure (PAP) signal indicative of PAP, and the pressure sensor comprises an implantable PAP sensor.
  - 6. The system of claim 1, wherein the hemodynamic signal comprises the signal indicative of blood flow, and the hemodynamic sensor comprises the flow sensor.
  - 7. The system of claim 1, wherein the hemodynamic signal comprises the signal indicative of heart sounds, and the hemodynamic sensor comprises the heart sound sensor.
  - 8. The system of claim 1, wherein the hemodynamic signal comprises the oximetry signal, and the hemodynamic sensor comprises the pulse oximetry sensor.
  - 9. The system of claim 1, wherein the hemodynamic signal comprises the plethysmographic signal, and the hemodynamic sensor comprises the photoplethysmography sensor configured to sense the plethysmographic signal.
  - 10. The system of claim 1, wherein the hemodynamic signal comprises the respiratory signal, and the hemodynamic sensor comprises the respiratory sensor.
  - 11. The system of claim 1, wherein the hemodynamic signal comprises the cardiac contractility signal, and the hemodynamic sensor comprises the cardiac contractility sensor.
  - 12. The system of claim 1, wherein the morphology-based tachyarrhythmia classification module comprises:
    - a similarity analyzer configured to compute a correlation coefficient between the arrhythmic morphological features and the template morphological features for each arrhythmic heart beat of a plurality of arrhythmic heart beats of the detected tachyarrhythmia episode; and
      
      a classifier including;
      
      a beat classifier configured to classify the each arrhythmic heart beat;
      
      a beat counter coupled to the beat classifier, the beat counter configured to count a number of the arrhythmic heart beats classified as the first type tachyarrhythmic heart beat; and
      
      an episode classifier configured to indicate a classification of the detected tachyarrhythmia episode as one of a first type tachyarrhythmia and a second type tachyarrhythmia using the number of the arrhythmic heart beats classified as the first type tachyarrhythmic heart beat and an episode classification threshold.
  - 13. The system of claim 12, comprising a further hemodynamic sensor configured to sense a further hemodynamic signal, and wherein the physiological parameter generator is configured to measure a further arrhythmic hemodynamic parameter from the further hemodynamic signal during the detected tachyarrhythmia episode, and the threshold generator is configured to dynamically adjust the beat classification threshold using the arrhythmic hemodynamic parameter, the further arrhythmic hemodynamic parameter, the template hemodynamic parameter, and a further template hemodynamic parameter.
  - 14. The system of claim 12, further comprising an activity sensor configured to sense a activity signal indicative of an activity level, and wherein the physiological parameter generator is configured to measure an activity parameter indicative of the activity level, and the threshold generator is configured to dynamically adjust the beat classification threshold using the arrhythmic hemodynamic parameter, the template hemodynamic parameter, and the activity parameter.

15. A method for detecting and classifying tachyarrhythmia, the method comprising:
- sensing a cardiac signal;
  
  sensing a hemodynamic signal;
  
  detecting a tachyarrhythmia episode using the cardiac signal;
  
  measuring an arrhythmic hemodynamic parameter from the hemodynamic signal during the detected tachyarrhythmia episode;
  
  extracting arrhythmic morphological features of an arrhythmic heart beat of the detected tachyarrhythmia episode from the cardiac signal;
  
  computing a measure of similarity between the extracted arrhythmic morphological features of the arrhythmic heart beat and template morphological features of a template heart beat;
  
  comparing the computed measure of similarity to a beat classification threshold to classify the arrhythmic heart beat;
  
  dynamically adjusting the beat classification threshold using the arrhythmic hemodynamic parameter and a template hemodynamic parameter; and
  
  measuring the template hemodynamic parameter when hemodynamic performance is normal or stable.
- View Dependent Claims (16, 17, 18)
- - 16. The method of claim 15, wherein sensing the hemodynamic signal comprises sensing an impedance signal indicative of a transthoracic impedance or a cardiac impedance, a pressure signal indicative of an arterial pressure, a signal indicative of blood flow, a signal indicative of heart sounds, an oximetry signal indicative of blood oxygenation, a plethysmographic signal indicative of cardiac output, a respiratory signal, or a cardiac contractility signal.
  - 17. The method of claim 15, comprising sensing a further hemodynamic signal and measuring a further arrhythmic hemodynamic parameter from the further hemodynamic signal during the detected tachyarrhythmia episode, and wherein dynamically adjusting the beat classification threshold comprises dynamically adjusting the beat classification threshold using the arrhythmic hemodynamic parameter, the further arrhythmic hemodynamic parameter, the template hemodynamic parameter, and a further template hemodynamic parameter.
  - 18. The method of claim 15, further comprising sensing an activity signal indicative of an activity level and measuring an activity parameter indicative of the activity level, and wherein dynamically adjusting the beat classification threshold comprises dynamically adjusting the beat classification threshold using the arrhythmic hemodynamic parameter, the template hemodynamic parameter, and the activity parameter.

19. A method for detecting and classifying tachyarrhythmia, the method comprising:
- sensing a cardiac signal;
  
  sensing a hemodynamic signal;
  
  detecting a tachyarrhythmia episode using the cardiac signal;
  
  measuring an arrhythmic hemodynamic parameter from the hemodynamic signal during the detected tachyarrhythmia episode;
  
  extracting arrhythmic morphological features of an arrhythmic heart beat of the detected tachyarrhythmia episode from the cardiac signal;
  
  computing a measure of similarity between the extracted arrhythmic morphological features of the arrhythmic heart beat and template morphological features of a template heart beat;
  
  comparing the computed measure of similarity to a beat classification threshold to classify the arrhythmic heart beat;
  
  dynamically adjusting the beat classification threshold using the arrhythmic hemodynamic parameter and a template hemodynamic parameter; and
  
  empirically estimating the template hemodynamic parameter from the hemodynamic signal during hemodynamically tolerable tachyarrhythmia.
- View Dependent Claims (20)
- - 20. The method of claim 19, wherein sensing the hemodynamic signal comprises sensing an impedance signal indicative of a transthoracic impedance or a cardiac impedance, a pressure signal indicative of an arterial pressure, a signal indicative of blood flow, a signal indicative of heart sounds, an oximetry signal indicative of blood oxygenation, a plethysmographic signal indicative of cardiac output, a respiratory signal, or a cardiac contractility signal.

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Current Assignee
Cardiac Pacemakers Incorporated (Boston Scientific Corporation)
Original Assignee
Cardiac Pacemakers Incorporated (Boston Scientific Corporation)
Inventors
Li, Dan, Cazares, Shelley M., Kim, Jaeho, Lee, Kent
Primary Examiner(s)
Layno, Carl H
Assistant Examiner(s)
Morales, Jon Eric C

Application Number

US13/043,346
Publication Number

US 20110160551A1
Time in Patent Office

889 Days
Field of Search

600/508, 600/515
US Class Current

600/508
CPC Class Codes

A61B 5/363   Detecting tachycardia or br...

A61B 5/7264   Classification of physiolog...

A61N 1/3621   for treating or preventing ...

A61N 1/36521   the parameter being derived...

A61N 1/36542   controlled by body motion, ...

A61N 1/36564   controlled by blood pressure

A61N 1/36571   controlled by blood flow ra...

A61N 1/36578   controlled by mechanical mo...

A61N 1/36585   controlled by two or more p...

A61N 1/3925   Monitoring; Protecting

A61N 1/39622   Pacing therapy

G16H 50/20   for computer-aided diagnosi...

Method and apparatus for morphology-based arrhythmia classification using cardiac and other physiological signals

First Claim

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Method and apparatus for morphology-based arrhythmia classification using cardiac and other physiological signals

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