Dual chamber pacing system and method with automatic adjustment of the AV escape interval for treating cardiomyopathy
First Claim
1. A dual chamber pacemaker system, having atrial sense means for sensing signals from a patient'"'"'s atrium, ventricular sense means for sensing ventricular signals from a patient, ventricular pace means for generating and delivering ventricular pace pulses to said patient'"'"'s right ventricle, AVesc means for setting and timing out an AV escape interval from the occurrence of the sensed atrial depolarization, and sync control means for controlling delivery of a ventricular pace pulse at the time out of a said AV escape interval in the absence of a sensed ventricular signal, comprisingwave means for obtaining and storing representations of QRS waves that have been evoked by delivered ventricular pace pulses,controllable adjust means for adjusting said AVesc means to vary said AV escape interval in a controlled direction, and storage means for storing a representation of said direction,change means for detecting a change of successive such QRS representations, andcontrol means for controlling said adjust means as a function of said detected change and said stored direction.
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Accused Products
Abstract
There is provided a dual chamber pacemaker system and method for ventricular pacing to provide therapy for a patient with cardiomyopathy, this system being characterized by automatically adjusting the AV escape interval so that ventricular pace pulses are delivered at an AV delay which is optimized for HOCM and/or dialated cardiomyopathy therapy. The pacemaker system continually obtains and stores representations of a QRS wave characteristic such as duration, derived either directly from the QRS signal or from an FFRS signal, and compares duration data from one or more cycles to prior stored duration data. The system then adjusts the AV interval as a function of the duration comparison, and the direction of the last adjustment of AV escape interval. By this means, the AV escape interval is maintained at or just short of the onset of fusion, thereby automatically providing for optimally lengthened AV escape intervals consistent with full capture by the delivered ventricular pace pulse.
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Citations
20 Claims
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1. A dual chamber pacemaker system, having atrial sense means for sensing signals from a patient'"'"'s atrium, ventricular sense means for sensing ventricular signals from a patient, ventricular pace means for generating and delivering ventricular pace pulses to said patient'"'"'s right ventricle, AVesc means for setting and timing out an AV escape interval from the occurrence of the sensed atrial depolarization, and sync control means for controlling delivery of a ventricular pace pulse at the time out of a said AV escape interval in the absence of a sensed ventricular signal, comprising
wave means for obtaining and storing representations of QRS waves that have been evoked by delivered ventricular pace pulses, controllable adjust means for adjusting said AVesc means to vary said AV escape interval in a controlled direction, and storage means for storing a representation of said direction, change means for detecting a change of successive such QRS representations, and control means for controlling said adjust means as a function of said detected change and said stored direction.
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10. A method of dual chamber cardiac 5pacing for heart pacing therapy, comprising sensing the occurrence of natural atrial beats, initiating timeout of an AV escape interval following a sensed atrial beat and delivering a ventricular pace pulse at the timeout of a said AV escape interval in the absence of a sensed ventricular natural beat, and controlling said AV escape interval in a direction to maximize the number of delivered ventricular pace pulses that evoke complete capture of the heart and to maximize the AV escape interval, said method including:
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obtaining a measure of the duration of each evoked QRS, and storing said measure, comparing the measure of each QRS duration with the stored value of the prior QRS duration and determining when said compared values differ by more than a predetermined amount, and adjusting said AV escape interval in a determined lengthening or shortening direction as a function of said comparison. - View Dependent Claims (11, 12, 13, 14)
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15. A method of dual chamber pacing for cardiomyopathy therapy, comprising:
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cyclically collecting QRS characteristic data; determining and storing the differences of said data for respective pairs of successive cycles; adjusting AV escape interval as a function of said differences and storing the direction of each adjustment, and said adjusting step including determining the direction of the adjustment as a function of the direction of the last such adjustment.
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16. A dual chamber pacemaker having atrial sense means for sensing signals in a patient'"'"'s atrium, ventricular sense means for sensing signals in said patient'"'"'s ventricle, ventricular pace means for generating and delivering ventricular pace pulses to the patient'"'"'s ventricle, and AV control means for controlling said pace means to generate and deliver a ventricular pace pulse at a controlled AV escape interval following a sensed atrial signal, comprising:
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means for continually monitoring a measure of the duration of the QRS signal sensed by either said atrial sense means or said ventricular sense means, first determining means for continually determining whenever said duration measure is shorter than a prior duration measure, and adjustment means for decrementing said AV escape interval by a first value in response to a determination by said determining means; and second determining means for determining when said duration measure has been substantially constant for a predetermined time, and wherein said adjustment means further comprises increment means for incrementing said AV escape interval by a second value in response a said substantially constant determination. - View Dependent Claims (17, 18, 19, 20)
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Specification