Self-calibration system for capture verification in pacing devices

US 5,855,594 A
Filed: 08/08/1997
Issued: 01/05/1999
Est. Priority Date: 08/08/1997
Status: Expired due to Term

First Claim

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1. A process for testing the efficacy of a sensed parameter as an indication of tissue stimulation;

including;

applying a plurality of first pulses to tissue, each of the first pulses having at least a first level of intensity known to evoke a desired response in the tissue;

applying a plurality of second pulses to the tissue in a manner to intersperse said second pulses within the plurality of first pulses, each of the second pulses having at most a second level of intensity known to be insufficient to evoke said desired response, with each of the pulses temporally distinguishable from the other pulses;

after applying each of the pulses, sensing the tissue to generate a response value based on a selected parameter, each one of the response values corresponding to one of said first and second pulses;

accumulating and sorting the response values into a first set of the response values corresponding to the first pulses and a second set of the response values corresponding to the second pulses;

combining the response values of said first set into a first composite value, and combining the values of said second set into a second composite value;

comparing the first composite value and the second composite value to one another to produce a difference factor based on the comparison; and

comparing the difference factor to a predetermined threshold, and alternatively;

(i) indicating an acceptance of the selected parameter responsive to determining that the difference factor is at least equal to the threshold; and

(ii) indicating a rejection of the parameter responsive to determining that the difference factor is less than the threshold.

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Abstract

A cardiac pacing and sensing system includes a body implantable unit for generating tissue stimulation pulses and manipulating information based on sensed signals, and a catheter for transmitting pulses from the unit to a pacing electrode adjacent myocardial tissue. The unit incorporates circuitry for generating response values, one associated with each stimulation pulse, based on a predetermined characteristic or parameter of the signals evoked by the pulses. To evaluate the efficacy of the parameter in distinguishing capture versus non-capture, the stimulation pulses are generated according to a protocol of high energy pulses guaranteed to effect capture interspersed with low energy pulses guaranteed not to effect capture. Data, accumulated and sorted into separate "capture" and "non-capture" sets, provides respective capture and non-capture composite values. The ratio of the composite values is compared to a predetermined threshold, to generate an indication either accepting or rejecting the chosen parameter. A parameter, once accepted, can be employed in a self-test that either increments or decrements stimulation of signals to evaluate the capture threshold. Optionally, two or more designated parameters can be screened simultaneously and compared, with the most favorable ratio then being compared to the threshold.

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34 Claims

1. A process for testing the efficacy of a sensed parameter as an indication of tissue stimulation;
- including;
  
  applying a plurality of first pulses to tissue, each of the first pulses having at least a first level of intensity known to evoke a desired response in the tissue;
  
  applying a plurality of second pulses to the tissue in a manner to intersperse said second pulses within the plurality of first pulses, each of the second pulses having at most a second level of intensity known to be insufficient to evoke said desired response, with each of the pulses temporally distinguishable from the other pulses;
  
  after applying each of the pulses, sensing the tissue to generate a response value based on a selected parameter, each one of the response values corresponding to one of said first and second pulses;
  
  accumulating and sorting the response values into a first set of the response values corresponding to the first pulses and a second set of the response values corresponding to the second pulses;
  
  combining the response values of said first set into a first composite value, and combining the values of said second set into a second composite value;
  
  comparing the first composite value and the second composite value to one another to produce a difference factor based on the comparison; and
  
  comparing the difference factor to a predetermined threshold, and alternatively;
  
  (i) indicating an acceptance of the selected parameter responsive to determining that the difference factor is at least equal to the threshold; and
  
  (ii) indicating a rejection of the parameter responsive to determining that the difference factor is less than the threshold.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The process of claim 1 wherein:
    - said sensing of the tissue comprises sensing voltage, and each of said response values represents a voltage level.
  - 3. The process of claim 1 wherein:
    - said sensing of the tissue includes detecting voltage, and each of the response values represents a peak-to-peak amplitude of a signal.
  - 4. The process of claim 1 wherein:
    - said sensing of tissue to accumulate said response values includes differentiating the sensed signals.
  - 5. The process of claim 1 wherein:
    - said sensing of the tissue includes sensing voltages, filtering the voltages to a selected range of frequencies, rectifying the signals and integrating the signals over a specified time.
  - 6. The process of claim 1 wherein:
    - said combining of the first and second response values to generate respective first and second composite values includes generating respective first and second averages of the first and second signals.
  - 7. The process of claim 1 wherein:
    - said combining of the response values includes determining respective first and second integrated averages and first and second standard deviations corresponding respectively to the first and second sets of response values.
  - 8. The process of claim 1 further including:
    - in the event of indicating acceptance of the selected parameter, applying test pulses of incrementally varied intensity levels to the tissue while sensing the tissue, to determine a minimum of said intensity levels at which the test pulses evoke the desired response.
  - 9. The process of claim 8 wherein:
    - applying the test pulses includes applying the pulses initially at an upper level known to evoke the desired response, then decrementing the level toward said second level of intensity.
  - 10. The process of claim 8 wherein:
    - said applying includes applying the test pulses initially at a lower level of intensity known to be insufficient to evoke a desired response, then incrementally increasing the level toward said first level.
  - 11. The process of claim 1 wherein:
    - said tissue is cardiac tissue, and the desired response is a capture.
  - 12. The process of claim 11 wherein:
    - said second pulses are interspersed among the first pulses in a manner to prevent an occurrence of two or more consecutive second pulses.
  - 13. The process of claim 12 wherein:
    - said first and second pulses are interspersed in a manner to provide alternating first and second pulses.
  - 14. The process of claim 13 wherein:
    - said pulses are provided at a frequency that exceeds an intrinsic heart rate.
  - 15. The process of claim 14 wherein:
    - said first pulses are applied initially at a selected maximum level of intensity substantially higher than said first level, then progressively decremented toward said first level.
  - 16. The process of claim 1 wherein:
    - said first and second levels of intensity are determined by a combination of pulse amplitude and pulse duration, with said first level of intensity being an amplitude of at least one volt and a duration of at least 0.5 ms; and
      
      said second level of intensity is an amplitude of at most about 0.1 volt and a duration of at most about 0.05 ms.

17. A system for automatically determining the efficacy of a detected response in tissue as an indication of tissue stimulation including:
- a pulse generator;
  
  a conductive pulse transmitting means coupled between the pulse generator and tissue, for delivering pulses to the tissue;
  
  a control means operatively coupled to the pulse generator for selectively varying an intensity level of the pulses, and thereby causing the pulse generator to deliver the pulses according to a protocol in which;
  
  (i) a plurality of first pulses having at least a first level of intensity known to achieve a desired response are interspersed among a plurality of second pulses having at most a second level of intensity known to be insufficient to achieve the desired response; and
  
  (ii) each of the pulses is temporally distinct from the others;
  
  a detecting means for sensing a response signal in said tissue following each of the first and second pulses, and adapted for generating at least a first response value associated with each response signal, based on a first characteristic of the response signals;
  
  a storage means adapted for accumulating the response values;
  
  a sorting means adapted for sorting the accumulated response values into a first set corresponding to the first pulses and a second set corresponding to the second pulses;
  
  a first processing means for combining the response values to generate first and second composite values based on the first and second sets, respectively;
  
  a second processing means operatively coupled to the first processing means, for comparing the first and second composite values and generating a difference factor based on the degree of difference between the first and second composite values;
  
  a third processing means coupled to receive the output of the second processing means, adapted for comparing the difference factor to a threshold, and for providing, either;
  
  (i) an indication of acceptance of the characteristic responsive to determining that the difference factor is at least as great as the threshold;
  
  or(ii) an indication of rejection of the characteristic responsive to determining that the difference factor is less than the threshold.
- View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
- - 18. The system of claim 17 wherein:
    - said first characteristic of the associated response signal comprises one of the following;
      
      a voltage level of the signal, and a peak-to-peak amplitude of the signal.
  - 19. The system of claim 17 wherein:
    - said first composite value and said second composite value comprise integrated averages of the response values in said first and second sets, respectively.
  - 20. The device of claim 19 wherein:
    - said first processing means further generates respective first and second standard deviations based on the response values in the first and second sets, respectively.
  - 21. The device of claim 17 wherein:
    - said detecting means further is adapted for generating a second response value associated with each response signal based on a second characteristic of the response signals;
      
      the storage means further is adapted to accumulate said second response values, and said sorting means further is adapted to sort the accumulated second response values into a third set corresponding to the first pulses and a fourth set corresponding to the second pulses;
      
      the first processing means further is adapted to combine the second response values to generate third and fourth composite values based on the third and fourth sets, respectively;
      
      the second processing means further is adapted to compare the third and fourth composite values and generate a second difference factor based on the degree of difference between the third and fourth composite values; and
      
      said third processing means further is adapted to select one of said first and second difference factors for the comparison to said threshold, to determine whether the selected difference factor is at least as great as the threshold.
  - 22. The device of claim 21 further including:
    - a fourth processing means operatively coupled to the second and third processing means, for comparing the first and second difference factors, and for selecting the larger of the first and second difference factors, thereby to cause said third processing means to select said larger difference factor for the comparison to said threshold.
  - 23. The device of claim 17 further including:
    - means, responsive to said indication of acceptance, for applying test pulses of incrementally varied intensity levels to the tissue while measuring said first characteristic, to determine a minimum intensity level at which the test pulses evoke the desired response.
  - 24. The device of claim 23 wherein:
    - said means is adapted to provide test signals initially at an upper level of intensity known to evoke the desired response, then to decrement the signals toward said second level of intensity.
  - 25. The device of claim 17 wherein:
    - said control means comprises programmable logic circuitry.
  - 26. The device of claim 25 wherein:
    - said logic circuitry is programmed to provide the second pulses interposed among the first pulses in a manner to prevent the occurrence of more than one consecutive second pulse.
  - 27. The device of claim 26 wherein:
    - said logic circuitry is programmed to provide the first and second pulses in an alternating sequence.
  - 28. The device of claim 17 wherein:
    - said detecting means includes a plurality of sensing electrodes, an A/D conversion circuit in the pulse generator, and an electrically conductive pathway between the sensing electrodes and the A/D conversion circuit, whereby said response values are binary words representing voltage levels sensed by the sensing electrodes.
  - 29. The device of claim 17 wherein:
    - said second processing means incorporates circuitry for dividing the first composite value by the second composite value, whereby the difference factor is a ratio of the first and second composite values.
  - 30. The device of claim 17 wherein:
    - said storage means comprises a first bank of registers for storing the accumulated response values of said first set, and a second bank of registers for storing the accumulated response values of said second set; and
      
      said sorting means includes clocking signals for simultaneously governing the operation of the pulse generator and memory circuitry including the first and second banks of registers, for determining in connection with each sensed response signal the associated one of the first and second pulses and, responsive thereto, loading the response value to the associated one of the first and second banks of registers.

31. A process for comparatively determining the efficacy of two or more sensed parameters as indications of tissue stimulation;
- including;
  
  applying a plurality of first pulses to tissue, each of the first pulses having at least a first level of intensity known to evoke a desired response in the tissue;
  
  applying a plurality of second pulses to the tissue in a manner to intersperse the second pulses within the plurality of first pulses, each of the second pulses having at most a second level of intensity known to be insufficient to evoke the desired response, and wherein each of the pulses is temporally distinguishable from the other pulses;
  
  sensing the tissue for an evoked signal after applying each of the pulses, and using each evoked signal to generate a first response value based on a first selected parameter and a second response value based on a second selected parameter of the evoked signals, whereby each of the first response values and each of the second response values corresponds to one of the first and second pulses;
  
  accumulating the response values and sorting the response values into;
  
  (i) a first set including the first response values corresponding to the first pulse;
  
  (ii) a second set including the first response values corresponding to the second pulse;
  
  (iii) a third set including the second response values corresponding to the first pulse; and
  
  (iv) a fourth set including the second response values corresponding to the second set;
  
  combining the response values of these sets respectively into first, second, third and fourth composite values;
  
  comparing the first composite value and the second composite value to one another to produce a first difference factor based on the comparison, and comparing the third and fourth composite values to one another to produce a second difference factor based on the comparison; and
  
  selecting one of the difference factors, thereby to select the parameter associated with the selected difference factor.
- View Dependent Claims (32, 33, 34)
- - 32. The process of claim 31 wherein:
    - the step of selecting one of the difference factors includes selecting the larger of the first and second difference factors.
  - 33. The process of claim 31 further including:
    - comparing the selected difference factor to a predetermined threshold, and alternatively;
      
      (i) indicating an acceptance of the associated parameter responsive to determining that the selected difference factor is at least equal to the threshold;
      
      or(ii) indicating a rejection of the associated parameter responsive to determining that the selected difference factor is less than the threshold.
  - 34. The process of claim 31 wherein generating the response values includes measuring each of the evoked signals for (i) a voltage level to obtain the first response value, and (ii) a peak-to-peak amplitude to provide the second response value.

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Current Assignee
Cardiac Pacemakers Incorporated (Boston Scientific Corporation)
Original Assignee
Cardiac Pacemakers Incorporated (Boston Scientific Corporation)
Inventors
Kadhiresan, Veerichetty A., Villalta, Donald L., Pederson, Brian D., Olive, Arthur L.
Primary Examiner(s)
Kamm, William E.
Assistant Examiner(s)
LAYNO, CARL HERNANDZ

Application Number

US08/907,609
Time in Patent Office

515 Days
Field of Search

607/27, 607/28, 607/11
US Class Current

607/28
CPC Class Codes

A61N 1/3712 Auto-capture, i.e. automati...

Self-calibration system for capture verification in pacing devices

First Claim

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Abstract

103 Citations

34 Claims

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Self-calibration system for capture verification in pacing devices

First Claim

1 Assignment

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Accused Products

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Abstract

103 Citations

34 Claims

Specification

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