Method and apparatus for monitoring pacemaker intervals

US 5,372,607 A
Filed: 06/23/1993
Issued: 12/13/1994
Est. Priority Date: 06/23/1993
Status: Expired due to Term

First Claim

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1. A rate-responsive pacemaker system, comprising an implantable pulse generator unit and an external programming unit, wherein said implantable pulse generator unit comprises:

pulse generator means for generating pacing pulses;

sensing circuitry means for detecting electrical cardiac signals;

sensor means for producing a sensor output signal reflecting a patient'"'"'s metabolic demand for oxygenated blood;

control means for controlling the rate of delivery of pacing pulses by said pulse generator means in accordance with said sensor output signal and further comprising means for inhibiting delivery of pacing pulses in the presence of normal electrical cardiac signals;

memory means for storing numeric data;

processing means coupled to said control means and to said memory means, for computing and storing in said memory means, data reflecting percentages of paced cardiac events occurring during each one of a succession of predefined intervals, and further comprising means for storing in said memory means, data reflecting said sensor output signal during each one of said succession of predefined intervals, data reflecting heart rate during each one of said succession of predefined intervals, and data reflecting AV interval durations of each one of a succession of cardiac cycles;

first telemetry circuit means, coupled to said memory means and to said control means, responsive to an interrogate signal from said external programming unit for transmitting said percentage of paced events data, said sensor output signal data, said heart rate data, and said AV interval data to said external programming unit;

and wherein said external programming unit comprises;

a second telemetry circuit means for sending said interrogate signal and for receiving said data transmitted by said first telemetry circuit means and;

means for displaying said percentage of paced events data, said heart rate data, sensor signal data, and said AV interval data.

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Abstract

A method and apparatus for optimizing the performance of a rate-responsive cardiac pacemaker. A pacemaker is provided which is capable of obtaining and storing information about a patient'"'"'s cardiac function and about a pacemaker'"'"'s operation during a brief exercise interval. The data collected includes information about the number of cardiac events during each two-second interval of the exercise, as well as the percentage of paced events during each two-second interval. Data reflecting the output of the pacemaker'"'"'s activity sensor output is also collected for each two second interval of the test. In addition, AV interval data for each cardiac cycle during the test is collected, this data being distinguished according to whether it reflects atrial-pace-to-ventricular-sense or atrial-sense-to-ventricular-sense AV intervals. The disclosed pacemaker is operable in conjunction with an external programming/processing unit, which receives the stored data after the exercise test is concluded. The data is processed and presented on the programmer screen in a manner which enables the clinician to readily assimilate it and observe the effects of hypothetical changes in rate-response programming in the pacemaker. Additionally, the clinician is able to observe the programmed AV rate adaption profiles in conjunction with the patient'"'"'s actual AV performance, and compare this data with an AV profile from a typical healthy heart.

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28 Claims

1. A rate-responsive pacemaker system, comprising an implantable pulse generator unit and an external programming unit, wherein said implantable pulse generator unit comprises:
- pulse generator means for generating pacing pulses;
  
  sensing circuitry means for detecting electrical cardiac signals;
  
  sensor means for producing a sensor output signal reflecting a patient'"'"'s metabolic demand for oxygenated blood;
  
  control means for controlling the rate of delivery of pacing pulses by said pulse generator means in accordance with said sensor output signal and further comprising means for inhibiting delivery of pacing pulses in the presence of normal electrical cardiac signals;
  
  memory means for storing numeric data;
  
  processing means coupled to said control means and to said memory means, for computing and storing in said memory means, data reflecting percentages of paced cardiac events occurring during each one of a succession of predefined intervals, and further comprising means for storing in said memory means, data reflecting said sensor output signal during each one of said succession of predefined intervals, data reflecting heart rate during each one of said succession of predefined intervals, and data reflecting AV interval durations of each one of a succession of cardiac cycles;
  
  first telemetry circuit means, coupled to said memory means and to said control means, responsive to an interrogate signal from said external programming unit for transmitting said percentage of paced events data, said sensor output signal data, said heart rate data, and said AV interval data to said external programming unit;
  
  and wherein said external programming unit comprises;
  
  a second telemetry circuit means for sending said interrogate signal and for receiving said data transmitted by said first telemetry circuit means and;
  
  means for displaying said percentage of paced events data, said heart rate data, sensor signal data, and said AV interval data.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A pacemaker system in accordance with claim 1, wherein said sensing circuitry means comprises means for sensing atrial electrical signals, and wherein said pulse generator means comprises means for generating ventricular pacing pulses, and wherein said control means comprises means responsive to a sensed atrial signal for triggering generation of a ventricular pacing pulse after a defined AV interval which varies as a function of said sensor output signal.
  - 3. A pacemaker system in accordance with claim 1, wherein said control means comprises means for selecting from among a plurality of predefined functions relating said sensor output signal to said pacing rate.
  - 4. A pacemaker system in accordance with claim 1, wherein said processing means comprises means for storing a bin number corresponding to a range of heart rates.
  - 5. A pacemaker system in accordance with claim 4, wherein said processing means comprises means for storing a percent paced value corresponding to a range of percentages.
  - 6. A pacemaker system in accordance with claim 5, wherein said display means comprises means for displaying said percentage of paced events data and said heart rate data in the form of a horizontal succession of boxes, where each box corresponds to a separate one of said succession of predefined time intervals and where each box'"'"'s vertical position on said display screen corresponds to said bin number for the predefined interval corresponding to said box, and where each box is shaded according to said percent paced value for the predefined interval corresponding to said box.
  - 7. A pacemaker system in accordance with claim 1, wherein said display means comprises means for displaying said percentage of paced events data and said heart rate data in the form of a horizontal succession of boxes, where each box corresponds to a separate one of said succession of predefined time intervals and where each box'"'"'s vertical position on said display screen corresponds to said heart rate data for the predefined interval corresponding to said box, and where each box is shaded according to said percentage of paced events data for the predefined interval corresponding to said box.
  - 8. A pacemaker system in accordance with claim 1, said processing means further comprises means for storing in conjunction with said AV interval data for each cardiac cycle an identification of whether an atrial pacing pulse was delivered for said cycle.
  - 9. A pacemaker system in accordance with claim 1, wherein said sensing means comprises means for detecting atrial signals, and wherein said pulse generator means comprises means for generating ventricular pacing pulses, and wherein said control means further comprises means for triggering generation of ventricular pacing pulses after a defined AV interval has elapsed following detection of an atrial signal, means responsive to said sensor output signal for varying said defined AV interval in accordance therewith.

10. A method of monitoring and pacing a patient'"'"'s heart comprising the steps of:
- (a) sensing electrical cardiac signals of said patient'"'"'s heart;
  
  (b) producing an activity signal reflecting said patient'"'"'s metabolic demand for oxygenated blood;
  
  (c) delivering pacing pulses to said patient'"'"'s heart at a base pacing rate when no electrical cardiac signals are sensed in step (a) above;
  
  (d) determining said base pacing rate in accordance with a first function of said activity signal;
  
  (e) inhibiting delivery of pacing pulses when normal electrical cardiac signals are sensed;
  
  (f) defining a succession of intervals during a brief patient exercise;
  
  (g) after each one of said succession of intervals, storing data reflecting percentages of paced cardiac events occurring during each said one of said succession of intervals;
  
  (h) after each one of said succession of intervals, storing data reflecting said activity signal during each said one of said succession of intervals;
  
  (i) during each one of said succession of intervals, measuring the duration of at least one cardiac cycle during said each one interval;
  
  (j) after each one of said succession of intervals, storing heart rate data reflecting said duration of at least one cardiac cycle measured in step (i) above;
  
  (k) during said succession of intervals, timing the duration of an AV interval of each cardiac cycle;
  
  (l) after each cardiac cycle during said succession of intervals, storing data reflecting said AV interval duration of said cardiac cycle;
  
  (m) after said succession of intervals displaying said percentage of paced events data, said heart rate data, sensor signal data, and said AV interval data.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
- - 11. A method in accordance with claim 10, wherein said step (a) of sensing electrical cardiac signals comprises sensing atrial electrical signals and wherein said method further comprises the steps of:
    - (o) delivering a ventricular pacing pulse following a defined AV interval initiated after sensing an atrial signal; and
      
      (p) varying said defined AV interval of step (o) above as a second function of said activity signal.
  - 12. A method in accordance with claim 11, further comprising the steps of:
    - (r) periodically increasing said defined AV interval to a high value;
      
      (s) detecting whether an ventricular signal occurs following a sensed atrial signal;
      
      (t) when ventricular signal is found to occur in step (s), storing AV interval data reflecting time between said sensed atrial signal and said ventricular signal;
      
      (u) storing, along with said AV interval data in step (t), data reflecting said patient'"'"'s current activity level;
      
      (v) repeating steps (r) through (u) above for different current activity levels;
      
      (w) programming said second function in accordance with said stored activity level data and said stored AV interval data.
  - 13. A method in accordance with claim 10, further comprising the step of:
    - (q) selecting said first function of said activity signal from among a plurality of predefined functions.
  - 14. A method in accordance with claim 10, wherein said step (j) of storing heart rate data comprises the steps of selecting a bin number corresponding to a range of heart rates, as a function of said measured cardiac cycle duration, and storing said bin number.
  - 15. A method in accordance with claim 14, wherein said step (g) of storing percentage of paced events data comprises the sub-step of computing a percent paced value corresponding to a range of percentages.
  - 16. A method in accordance with claim 10, wherein said step (l) of storing AV interval data for each cardiac cycle includes the step of storing an identification of whether an atrial pacing pulse was delivered for each said cycle.
  - 17. A method in accordance with claim 10, wherein said step (e) of defining a succession of intervals comprises defining a succession of two-second intervals.
  - 18. A method in accordance with claim 10, wherein said step (e) of defining a succession of intervals comprises defining a succession of four-second intervals.

19. A method of monitoring and pacing a patient'"'"'s heart, comprising the steps of:
- (a) causing said patient to engage in an exercise during an exercise period;
  
  (b) defining a plurality of successive time intervals during said exercise period;
  
  (c) after each one of said plurality of time intervals, recording heart rate data reflecting said patient'"'"'s heart rate during said time interval;
  
  (d) after each one of said plurality of time intervals, recording percent paced data reflecting a percentage of paced events during said time interval;
  
  (e) after each one of said plurality of time intervals, recording activity data reflecting a level of patient activity during said time interval;
  
  (f) after each cardiac cycle during said exercise period, recording AV interval data reflecting a duration of an AV interval of said cardiac cycle;
  
  (g) after each cardiac cycle during said exercise period, recording pace/sense data reflecting whether an atrial stimulating pulse was delivered during said cardiac cycle;
  
  (h) after said exercise period, simultaneously displaying said heart rate data, said percent paced data, and activity data; and
  
  (i) after said exercise period, displaying said AV interval data and said pace/sense data.

20. A pacemaker system, comprising an implantable pacemaker and an external monitoring unit;
- wherein said implantable pacemaker comprises;
  
  pulse generator means for generating pacing pulses at a pacing rate;
  
  sensing means for sensing atrial and ventricular signals;
  
  control means, coupled to said pulse generator means, for controlling said pacing rate;
  
  memory means for storing numeric data;
  
  computing means coupled to said sensing means, said control means and to said memory means, for simultaneously computing and storing in said memory means, data reflecting a patient'"'"'s heart rate and data reflecting AV interval durations of each one of a succession of cardiac cycles; and
  
  a first telemetry circuit, coupled to said memory means and to said control circuit, said first telemetry circuit comprising means responsive to an interrogate signal from said external programming unit, for transmitting said heart rate data and said AV interval data to said external programming unit; and
  
  wherein said external monitoring unit comprises;
  
  a second telemetry circuit comprising means for sending said interrogate signal and means for receiving said data transmitted by said first telemetry transmitter circuit; and
  
  means for displaying said heart rate data versus said AV interval data.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
- - 21. A pacemaker system in accordance with claim 20, further comprising:
    - sensor means, coupled to said control means, for producing an output signal reflecting a patient'"'"'s metabolic demand for oxygenated blood; and
      
      wherein said control means comprises means for varying said pacing rate as a function of said output signal.
  - 22. A pacemaker system in accordance with claim 21, wherein said control means comprises means responsive to a sensed atrial signal for delivering a ventricular pacing pulse after a defined AV interval which varies as a function of said output signal.
  - 23. A pacemaker system in accordance with claim 20, wherein said computing means comprises means for selecting a bin number corresponding to a range of heart rates and means for storing said bin number in said memory means.
  - 24. A pacemaker system in accordance with claim 20, wherein said pulse generator means comprises means for generating atrial pacing pulses and wherein said computing means comprises means for storing in said memory means an indication of whether an atrial pacing pulse was delivered, in each said cardiac cycle.
  - 25. A pacemaker system in accordance with claim 20, wherein said pulse generator means comprises means for generating ventricular pacing pulses and wherein said computing means comprises means for storing in said memory means an indication of whether a ventricular pacing pulse was delivered, in each said cardiac cycle.
  - 26. A pacemaker system in accordance with claim 20, wherein said computing means comprises means for storing in said memory means an indication of whether an atrial signal was sensed, in each said cardiac cycle.
  - 27. A pacemaker system in accordance with claim 20, wherein said computing means comprises means for storing in said memory means an indication of whether a ventricular signal was sensed, in each said cardiac cycle.

28. A method of monitoring and pacing a patient'"'"'s heart, said method comprising the steps of:
- implanting a pacemaker having the capability to sense atrial and ventricular signals and to deliver pacing pulses, in said patient;
  
  causing said patient to engage in an exercise during an exercise period;
  
  defining a plurality of successive time intervals during said exercise period;
  
  after each one of said plurality of time intervals, recording activity data reflecting a level of patient activity during said time interval;
  
  after each cardiac cycle during said exercise period, recording AV interval data reflecting a duration of an AV interval of each said cardiac cycle;
  
  after each cardiac cycle during said exercise period, recording pace/sense data reflecting whether a stimulating pulse was delivered during said cardiac cycle; and
  
  after said exercise period, simultaneously displaying said activity data, said AV interval data and said pace/sense data.

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Current Assignee
Medtronic Incorporated (Medtronic Plc)
Original Assignee
Medtronic Incorporated (Medtronic Plc)
Inventors
Powell, Richard M., Berg, Gary, Stone, Karen A., Tollinger, Michael R.
Primary Examiner(s)
Kamm, William E.

Application Number

US08/081,721
Time in Patent Office

538 Days
Field of Search

607/17, 607/19, 607/22, 607/27
US Class Current

607/30
CPC Class Codes

A61N 1/36514   controlled by a physiologic...

A61N 1/368   comprising more than one el...

A61N 1/37   Monitoring; Protecting

Method and apparatus for monitoring pacemaker intervals

First Claim

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28 Claims

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Method and apparatus for monitoring pacemaker intervals

First Claim

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Abstract

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28 Claims

Specification

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