Dual chamber cardiac pacemaker employing hysteresis to maximize the number of normally conducted ventricular beats with an optimum A-V delay for paced ventricular beats
First Claim
1. In a DDD pacemaker of the type including means for sensing natural and paced atrial depolarization signals, means for sensing natural and stimulated ventricular depolarization signals, atrial stimulating means, ventricular stimulating means and programmable microcontroller means coupled to said atrial and ventricular sensing means and said atrial and ventricular stimulating means for causing said ventricular stimulating means to issue a pacing pulse after a predetermined A-V delay period if a natural ventricular depolarization signal is not sensed within said A-V delay period, the improvement comprising:
- (a) means for establishing a first A-V delay value between the occurrence of one of a paced and natural atrial depolarization signal and the operation of said ventricular stimulating means when no natural ventricular depolarization signal intervenes, said first A-V delay value selected to be of a length sufficiently long to enhance the chance of detecting natural ventricular depolarization signals in said A-V delay period;
(b) means for establishing a second A-V delay value between the occurrence of one of a paced and natural atrial depolarization signal and the operation of said ventricular stimulating means when no natural ventricular depolarization signal intervenes, said second A-V delay value being shorter than said first A-V delay value and of a length which improves the hemodynamic performance of the heart; and
(c) means for automatically shifting said A-V delay period between said first and second delay values based upon the relative rate of occurrence of said natural ventricular depolarization signals and said pacing pulses issued from said ventricular stimulating means during a time interval in which a count of the total of sensed natural ventricular depolarization signals and pacing pulses exceeds a predetermined value.
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Abstract
A DDD pacemaker including stimulating means to stimulate the ventricles of a heart after a predetermined A-V delay period includes means for adjusting the A-V delay period to enhance the probability of detecting naturally occurring ventricular depolarization signals when such signals are being detected at a predetermined rate and switching to a more hemodynamically appropriate A-V delay period when paced beats predominate. The invention is implemented in software run on a microprogrammable controller comprising the DDD pacemaker.
110 Citations
15 Claims
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1. In a DDD pacemaker of the type including means for sensing natural and paced atrial depolarization signals, means for sensing natural and stimulated ventricular depolarization signals, atrial stimulating means, ventricular stimulating means and programmable microcontroller means coupled to said atrial and ventricular sensing means and said atrial and ventricular stimulating means for causing said ventricular stimulating means to issue a pacing pulse after a predetermined A-V delay period if a natural ventricular depolarization signal is not sensed within said A-V delay period, the improvement comprising:
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(a) means for establishing a first A-V delay value between the occurrence of one of a paced and natural atrial depolarization signal and the operation of said ventricular stimulating means when no natural ventricular depolarization signal intervenes, said first A-V delay value selected to be of a length sufficiently long to enhance the chance of detecting natural ventricular depolarization signals in said A-V delay period; (b) means for establishing a second A-V delay value between the occurrence of one of a paced and natural atrial depolarization signal and the operation of said ventricular stimulating means when no natural ventricular depolarization signal intervenes, said second A-V delay value being shorter than said first A-V delay value and of a length which improves the hemodynamic performance of the heart; and (c) means for automatically shifting said A-V delay period between said first and second delay values based upon the relative rate of occurrence of said natural ventricular depolarization signals and said pacing pulses issued from said ventricular stimulating means during a time interval in which a count of the total of sensed natural ventricular depolarization signals and pacing pulses exceeds a predetermined value.
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2. In a DDD pacemaker of the type including means for sensing atrial depolarization signals, means for sensing ventricular depolarization signals, atrial stimulating means, ventricular stimulating means, and microcontroller means coupled to each said sensing means and each said stimulating means for causing said ventricular stimulating means to stimulate the ventricle after a predetermined A-V delay period if a natural ventricular depolarization signal is not sensed within said A-V delay period, the improvement comprising:
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(a) means for setting said A-V delay period to a first value; (b) means for setting said A-V delay period to a second value less than said first value; (c) means including said microcontroller means operative during the period that said A-V delay is at said first value for determining whether the ratio of natural ventricular depolarization signals to stimulated ventricular depolarization signals over a predetermined total number of ventricular depolarization signals exceeds a predetermined value and, if so, setting said A-V delay period to said second value; and (d) means operative during the period that said A-V delay period is at said second value for counting the number of stimulated ventricular depolarization signals and setting said A-V delay period back to said first value when that count equals a predetermined number. - View Dependent Claims (3, 4, 5, 6, 7)
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8. In a DDD pacemaker of the type including means for sensing natural and paced atrial depolarization signals, means for sensing natural and paced ventricular depolarization signals, atrial stimulating means, ventricular stimulating means, and programmable microcontroller means coupled to said atrial and ventricular sensing means and to said atrial and ventricular stimulating means for causing said ventricular stimulating means to issue a pacing pulse after an A-V delay period if a natural ventricular depolarization signal is not sensed within said A-V delay period, the improvement comprising:
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(a) means for counting sequentially occurring natural and paced ventricular depolarization signals; (b) means responsive to said counting means for computing the ratio of the number of natural ventricular depolarization signals to paced ventricular depolarization signals occurring within a period corresponding to the time for said means for counting to reach a predetermined total; (c) means for comparing said ratio to a predetermined programmed value; and (d) means responsive to the outcome of said comparison for repetitively increasing said A-V delay period by a predetermined time increment when said ratio is less than said predetermined programmed value and maintaining an existing A-V delay period when said ratio exceeds said predetermined programmed value. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification