System and method for automatic atrial capture detection and atrial pacing threshold determination
First Claim
1. In an implantable stimulation device, a method for performing an atrial capture verification test, the method comprising:
- monitoring patient activity;
detecting a rest condition based on the patient activity;
upon detection of a rest condition;
sensing intrinsic P-waves and measuring an intrinsic P—
P interval; and
defining an intrinsic P-wave detection window based on the measured P—
P interval, and triggering the atrial stimulation pulse prior to the intrinsic p-wave detection window such that non-capture is defined when a P-wave is sensed during the intrinsic P-wave detection window and capture is defined when a P-wave is not sensed during the intrinsic P-wave detection window;
stimulating the heart at a predetermined time prior to the intrinsic P-wave detection window; and
determining that atrial capture exists based on an absence of a sensed P-wave in the intrinsic P-wave detection window;
wherein defining further comprises adjusting the stimulation rate so that intrinsic P-waves occur, determining an average intrinsic P—
P interval, and defining the detection window based on a range about the average intrinsic P—
P interval.
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Accused Products
Abstract
An implantable dual chamber stimulation device provides a novel detection scheme for automatically detecting atrial capture and performing an atrial pacing threshold assessment. The stimulation device preferably waits until the patient is at or near rest and monitors the patient'"'"'s P-wave activity to determine a detection window where a next P-wave is expected to occur. The stimulation device then delivers an atrial pulse prior to the next detection window, and monitors the window to determine whether a P-wave occurs therein. If a P-wave does not occur, then atrial capture is present, while occurrence of a P-wave indicates absence of atrial capture. If atrial capture is absent, the stimulation device automatically determines an appropriate atrial pacing threshold by monitoring the detection window while adjusting the stimulation pulse energy level. Advantageously, the present invention further employs a “bottom-up” adjusting scheme which starts at a low energy level, below the expected atrial pacing threshold, and increases the energy level until atrial capture is detected, thus saving energy and further avoiding corruption by large polarization signals. The latter feature is compatible with the present detection scheme and conventional evoked response detection schemes. The new atrial pacing threshold is then set at the atrial pulse level at which atrial capture was effectuated plus a predetermined safety margin.
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Citations
6 Claims
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1. In an implantable stimulation device, a method for performing an atrial capture verification test, the method comprising:
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monitoring patient activity; detecting a rest condition based on the patient activity; upon detection of a rest condition; sensing intrinsic P-waves and measuring an intrinsic P—
P interval; anddefining an intrinsic P-wave detection window based on the measured P—
P interval, and triggering the atrial stimulation pulse prior to the intrinsic p-wave detection window such that non-capture is defined when a P-wave is sensed during the intrinsic P-wave detection window and capture is defined when a P-wave is not sensed during the intrinsic P-wave detection window;stimulating the heart at a predetermined time prior to the intrinsic P-wave detection window; and determining that atrial capture exists based on an absence of a sensed P-wave in the intrinsic P-wave detection window; wherein defining further comprises adjusting the stimulation rate so that intrinsic P-waves occur, determining an average intrinsic P—
P interval, and defining the detection window based on a range about the average intrinsic P—
P interval.
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2. An implantable heart stimulation device comprising:
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an activity sensor that senses patient activity and generates corresponding activity signals; a second sensor that senses cardiac activity and generates corresponding signals; a pulse generator that generates pacing pulses to be delivered to the heart; and a controller that is coupled to the activity sensor, second sensor, and the pulse generator, wherein the controller is operative to detect a rest condition based on the activity signals, and wherein the controller is responsive to detection of a rest condition to perform an atrial capture verification test using the pulse generator and second sensor; wherein the controller is responsive to receipt of signals from the second sensor to define the intrinsic P-wave detection window, wherein the controller is operative to control the pulse generator to stimulate the heart at a time prior to the intrinsic P-wave detection window, and wherein the controller is operative to determine that atrial capture exists based on an absence of a sensed P-wave in the P-wave detection window; and wherein defining further comprises adjusting a stimulation rate so that intrinsic P-waves occur, determining an average intrinsic P—
P interval, and defining an intrinsic P-wave detection window based on a range about the average intrinsic P—
P interval. - View Dependent Claims (3)
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4. An implantable heart stimulation device comprising:
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means for monitoring an activity level of a patient; means for detecting a rest condition of the patient based on the activity level; and means for performing an atrial capture-related test in response to detection of the rest condition; wherein the atrial capture-related test comprises adjusting a stimulation rate so that intrinsic P-waves occur, determining an average intrinsic P—
P interval, and defining an intrinsic P-wave detection window based on a range about the average intrinsic P—
P interval; anda controller adapted to control a pulse generator to stimulate the patient'"'"'s heart at a time prior to the intrinsic P-wave detection window, and wherein the controller is operative to determine that atrial capture exists based on an absence of a sensed P-wave in the P-wave detection window. - View Dependent Claims (5, 6)
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Specification