Method and apparatus for beat alignment and comparison

US 8,073,532 B2
Filed: 01/13/2009
Issued: 12/06/2011
Est. Priority Date: 11/29/2004
Status: Active Grant

First Claim

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1. An implantable defibrillator comprising:

a lead electrode assembly including a number of electrodes; and

a canister housing operational circuitry;

wherein;

the lead electrode assembly is coupled to the canister;

the operational circuitry is configured to analyze cardiac events using a template having a template data set and template parameters, the template parameters including definition of an amplitude peak of the template data set as a fiducial point and start and end points surrounding the fiducial point; and

the operational circuitry is configured to perform the steps of;

capturing a signal using electrodes implanted in a patient'"'"'s torso;

configuring the captured signal in accordance with the template parameters, including defining a signal fiducial point in the captured signal, wherein the captured signal includes a plurality of signal samples and the signal fiducial point is set as a peak signal sample;

aligning the template data set with the configured captured signal using the template and signal fiducial points; and

comparing the aligned template data set to the signal samples in the configured captured signal, including comparing the template fiducial point to the sample fiducial point.

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Abstract

Methods of using a template having a template data set and template parameters to provide improved alignment of captured cardiac signal data to a stored template. More particularly, in an illustrative method, a captured cardiac signal is first configured using template parameters for a stored template. Then, once configured, the captured cardiac signal is then compared to the stored template. Other embodiments include implantable cardiac treatment devices including operational circuitry configured to perform the illustrative method. In a further embodiment, more than one stored templates may be used. Each template can have independently constructed parameters, such that a single captured cardiac signal may be configured using first parameters for comparison to a first template, and using second parameters for comparison to a second template.

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19 Claims

1. An implantable defibrillator comprising:
- a lead electrode assembly including a number of electrodes; and
  
  a canister housing operational circuitry;
  
  wherein;
  
  the lead electrode assembly is coupled to the canister;
  
  the operational circuitry is configured to analyze cardiac events using a template having a template data set and template parameters, the template parameters including definition of an amplitude peak of the template data set as a fiducial point and start and end points surrounding the fiducial point; and
  
  the operational circuitry is configured to perform the steps of;
  
  capturing a signal using electrodes implanted in a patient'"'"'s torso;
  
  configuring the captured signal in accordance with the template parameters, including defining a signal fiducial point in the captured signal, wherein the captured signal includes a plurality of signal samples and the signal fiducial point is set as a peak signal sample;
  
  aligning the template data set with the configured captured signal using the template and signal fiducial points; and
  
  comparing the aligned template data set to the signal samples in the configured captured signal, including comparing the template fiducial point to the sample fiducial point.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The implantable defibrillator of claim 1, wherein the operational circuitry is further configured to perform the step of classifying the captured signal as being normal or abnormal such that:
    - if the configured captured signal correlates to the aligned template data set, the operational circuitry classifies the captured signal as being normal;
      
      orif the configured captured signal poorly correlates to the aligned template data set, the operational circuitry classifies the captured signal as being abnormal.
  - 3. The implantable defibrillator of claim 2, wherein the operational circuitry is further configured such that the configured captured signal, if determined to be normal, represents a portion of a single cardiac beat including an R-wave.
  - 4. The implantable defibrillator of claim 2 wherein the operational circuitry is configured to:
    - track the number of normal and abnormal captured signals;
      
      determine whether therapy is indicated using the number of normal and abnormal captured signals; and
      
      if therapy is indicated, deliver therapy.
  - 5. The implantable defibrillator of claim 1, wherein the operational circuitry is further configured such that the template parameters include a manner of selecting data points to form a template window.
  - 6. The implantable defibrillator of claim 1, wherein the operational circuitry is further configured for performing the step of capturing a signal using only subcutaneously implanted electrodes.
  - 7. The implantable defibrillator of claim 1, wherein the operational circuitry is further configured such that the step of comparing the aligned template data set to the configured captured signal includes performing a correlation waveform analysis between the configured captured signal defined between its beginning and ending points, and the aligned template data set.
  - 8. The implantable defibrillator of claim 1, wherein the operational circuitry includes a microcontroller.
  - 9. The implantable defibrillator of claim 1, wherein the operational circuitry includes readable media including an instruction set for performing the capturing, configuring, aligning and comparing steps.
  - 10. The implantable defibrillator of claim 1, wherein the operational circuitry is further configured such that the configured captured signal includes a plurality of amplitude samples, and the comparing step includes comparing amplitudes of samples from the configured captured signal to stored amplitudes for the aligned template data set.
  - 11. The implantable defibrillator of claim 1, wherein the operational circuitry is further configured such that the comparing step includes performing a correlation waveform analysis between the configured captured signal and the aligned template data set.
  - 12. The implantable defibrillator of claim 1 wherein the operational circuitry is configured such that:
    - the template data set comprises a set of i time-ordered samples {T0 . . . Ti} of electrical cardiac signals, with a sample, Tf, of the template data set being identified as a highest amplitude or magnitude signal in the template data set and serving as a fiducial point and with a first set of samples {T0 . . . Tf−
      
      1} and a second set of samples {Tf+1 . . . Ti} being identified as belonging to a sample window for the template data set;
      
      the step of configuring the captured signal in accordance with the template parameters comprises identifying a sample within a series of sampled signals as a fiducial point, Sf, that has a highest relative amplitude within a set of such sampled signals, and selecting a set of time-ordered samples around Sf including {S0 . . . Sf−
      
      1} and {Sf+1 . . . Si} according to the sample window of the template data set;
      
      the step of aligning the template data set with the captured signal includes aligning time ordered signal samples {S0 . . . Si} with time ordered template samples {T0 . . . Ti} using the fiducial points {Sf, Tf}; and
      
      the step of comparing the aligned template data set to the configured captured signal includes performing correlation analysis of the amplitudes of the aligned data sets {S0 . . . Si} and {T0 . . . Ti}.
  - 13. The implantable defibrillator of claim 1 wherein the operational circuitry is configured such that:
    - the template parameters include one or more size parameters indicating how many samples are part of the template, and one or more position parameters indicating a position of a fiducial point in the template; and
      
      the step of configuring the captured signal in accordance with the template parameters includes identifying a fiducial point in the captured signal, and defining a signal window around the fiducial point using the one or more size parameters and the one or more position parameters.
  - 14. The implantable defibrillator of claim 1 wherein the operational circuitry is also configured to:
    - track the number of normal and abnormal captured signals;
      
      determine whether therapy is indicated using the number of normal and abnormal captured signals; and
      
      if therapy is indicated, deliver therapy.

15. An implantable defibrillator comprising a canister and a lead electrode assembly, the lead electrode assembly being coupled to the canister, with operational circuitry disposed in the canister for performing cardiac signal analysis and delivering electrical cardiac stimulus using a plurality of electrodes disposed on the canister and lead electrode assembly, wherein the operational circuitry is configured such that it performs a method comprising:
- capturing electrical cardiac signals;
  
  storing a template comprising template data and template parameters, the template data including a number of sample values disposed about a fiducial point, the template parameters indicating a number of data points in the template and a relative location of the fiducial point within the number of data points;
  
  configuring a captured electrical cardiac signal using the template parameters such that a signal fiducial point of the captured electrical cardiac signal is defined with a predetermined number of samples on either side of the signal fiducial point;
  
  calculating a correlation of the configured captured electrical cardiac signal to the template data by aligning the template data fiducial point with the signal fiducial point and comparing the template data including the template data fiducial point to the configured captured electrical cardiac signal including the signal fiducial point;
  
  using the calculated correlation to determine whether the captured electrical cardiac signal is normal or abnormal;
  
  tracking the number of normal and abnormal captured signals;
  
  determining whether therapy is indicated using the number of normal and abnormal captured signals; and
  
  if therapy is indicated, delivering therapy;
  
  wherein the template fiducial point is defined by identifying an amplitude or magnitude peak of the template data, and the signal fiducial point is defined by identifying an amplitude or magnitude peak of the signal data.
- View Dependent Claims (16, 17)
- - 16. The implantable defibrillator of claim 15 wherein the operational circuitry comprises a microcontroller configured to control the operation of steps of capturing electrical cardiac signals, storing a template, configuring a captured electrical cardiac signal, calculating a correlation and using the calculated correlation to determine whether the captured electrical cardiac signal is normal or abnormal.
  - 17. The implantable defibrillator of claim 15 wherein:
    - the stored template comprises a series of time ordered samples in which the fiducial point resides with a plurality of values preceding and following the fiducial point in the template, wherein the fiducial point occurs at a peak of the series of time ordered samples; and
      
      the captured electrical cardiac signal is configured to as a signal window comprising a series of time ordered signal samples within which the signal fiducial point is a signal fiducial point represents a peak within the series of time ordered signal samples.

18. A method of cardiac signal analysis comprising:
- an implanted defibrillator capturing a cardiac electrical signal;
  
  the implanted defibrillator comparing the cardiac electrical signal to a first stored template having first template parameters including a first template fiducial point definition and first template window definition predetermining a number of samples before and after the first template fiducial point that form the first template, the step of comparing the cardiac electrical signal to the first stored template including defining a first signal fiducial point in the cardiac electrical signal, a first start point and a first end point for the cardiac electrical signal and using the first signal fiducial point and first template fiducial point to align the template to the cardiac electrical signal and using the first template window definition to determine how much of the cardiac electrical signal to compare to the first template;
  
  the implanted defibrillator comparing the cardiac electrical signal to a second stored template having second template parameters including a second template fiducial point definition and second template window definition predetermining a number of samples before and after the second template fiducial point that form the second template, the step of comparing the cardiac electrical signal to the second stored template including defining a second signal fiducial point in the cardiac electrical signal and using the second signal fiducial point and second template fiducial point to align the template to the cardiac electrical signal and using the second template window definition to determine how much of the cardiac electrical signal to compare to the second template;
  
  the implantable defibrillator using the results of comparison to the first and second stored templates to determine whether the cardiac electrical signal indicates malignant function of the patient'"'"'s heart; and
  
  if the patient'"'"'s heart function is malignant, the implantable defibrillator delivering stimulus to the patient;
  
  wherein the first template window definition and the second template window definition are different from one another.
- View Dependent Claims (19)
- - 19. The method of claim 18 wherein the first stored template, first fiducial point, first start point and first end point are defined independently of the second stored template, second fiducial point, second start point and second end point.

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Current Assignee
Cameron Incorporated (Schlumberger NV)
Original Assignee
Cameron Incorporated (Schlumberger NV)
Inventors
Palreddy, Surekha, Warren, Jay A., Ostroff, Alan H.
Primary Examiner(s)
Layno, Carl H
Assistant Examiner(s)
MALAMUD, DEBORAH LESLIE

Application Number

US12/353,114
Publication Number

US 20090125075A1
Time in Patent Office

1,057 Days
Field of Search

600509-510, 600/518, 128/920, 607/14
US Class Current

600/518
CPC Class Codes

A61B 5/35   by template matching

A61B 5/363   Detecting tachycardia or br...

A61N 1/3622   comprising two or more elec...

A61N 1/3956   Implantable devices for app...

Y10S 128/92   Computer assisted medical d...

Method and apparatus for beat alignment and comparison

First Claim

1 Assignment

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Abstract

48 Citations

19 Claims

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Method and apparatus for beat alignment and comparison

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

48 Citations

19 Claims

Specification

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Solutions

Use Cases

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