Multi-chamber leadless pacemaker system with inter-device communication
First Claim
1. A leadless cardiac pacemaker system comprising:
- a first leadless cardiac pacemaker (LCP) configured to be implantable at a ventricular site;
a second leadless cardiac pacemaker (LCP) configured to be implantable at an atrial site, the second LCP configured to sense atrial contractions;
the first LCP and the second LCP are configured to be communicatively coupled such that the second LCP can communicate sensed atrial contractions to the first LCP;
the first LCP being configured to determine an interval between the atrial contractions that are sensed by the second LCP, the first LCP further configured to change a currently active mode of the leadless cardiac pacemaker system from a tracking mode to a non-tracking mode if the determined interval between the atrial contractions becomes shorter than a lower threshold duration;
wherein the first LCP delivers pacing therapy to the ventricular site in accordance with the currently active mode of the leadless cardiac pacemaker system; and
wherein the first LCP delivers pacing therapy to the ventricular site at a predetermined pacing rate if the determined interval between the atrial contractions becomes longer than an upper threshold duration as a result of loss of communication between the first LCP and the second LCP.
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Accused Products
Abstract
Systems and methods for switching modes in a multi-device medical system. In one example, a first leadless cardiac pacemaker (LCP) may be implantable at a ventricular site, and a second leadless cardiac pacemaker (LCP) may be implantable at an atrial site and configured to sensing atrial contractions. The first LCP and the second LCP may be configured to be communicatively coupled such that the first LCP and the second LCP can deliver pacing therapy to the ventricular site in a tracking mode. The first LCP and/or the second LCP may additionally be configured to deliver pacing therapy to the ventricular site in a non-tracking mode if an interval between atrial contractions sensed by the second LCP becomes shorter than a threshold duration.
20 Citations
19 Claims
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1. A leadless cardiac pacemaker system comprising:
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a first leadless cardiac pacemaker (LCP) configured to be implantable at a ventricular site; a second leadless cardiac pacemaker (LCP) configured to be implantable at an atrial site, the second LCP configured to sense atrial contractions; the first LCP and the second LCP are configured to be communicatively coupled such that the second LCP can communicate sensed atrial contractions to the first LCP; the first LCP being configured to determine an interval between the atrial contractions that are sensed by the second LCP, the first LCP further configured to change a currently active mode of the leadless cardiac pacemaker system from a tracking mode to a non-tracking mode if the determined interval between the atrial contractions becomes shorter than a lower threshold duration; wherein the first LCP delivers pacing therapy to the ventricular site in accordance with the currently active mode of the leadless cardiac pacemaker system; and wherein the first LCP delivers pacing therapy to the ventricular site at a predetermined pacing rate if the determined interval between the atrial contractions becomes longer than an upper threshold duration as a result of loss of communication between the first LCP and the second LCP. - View Dependent Claims (2, 3, 4)
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5. A method of delivering pacing pulses to a heart of a patient, the method comprising:
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sensing two or more atrial events by a first implantable medical device implanted at an atrial site; determining, by the first implantable medical device, an atrial interval between successive atrial events; determining, by the first implantable medical device, whether the atrial interval indicates an atrial contraction rate that is above a threshold; if the atrial contraction rate is below the threshold, communicating the sensed atrial events from the first implantable medical device to a second implantable medical device implanted at a ventricular site, wherein the second implantable medical device is configured to pace a ventricle of the heart in response to the communicated events in a tracking mode; if the atrial contraction rate that is above the threshold, communicating from the first implantable medical device to the second implantable medical device a command to pace the ventricle of the heart in a non-tracking mode; and in response to a loss of communication between the first implantable medical device and the second implantable medical device, the second implantable medical device is configured to pace the ventricle of the heart at a predetermined safe rate. - View Dependent Claims (6, 7, 8)
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9. A method of delivering pacing pulses to a heart of a patient, the method comprising:
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sensing a plurality of atrial events by a first implantable medical device; communicating, by the first medical device to a second implantable medical device, an indication of one or more of the plurality of sensed atrial events; determining an atrial interval between successive sensed atrial events; determining whether the atrial interval indicates an atrial contraction rate that is above a threshold; if the atrial contraction rate is below the threshold, delivering one or more pacing pulses to a ventricle of the heart of the patient by the second implantable medical device according to a first therapy protocol; if the atrial contraction rate is above the threshold, delivering one or more pacing pulses to the ventricle of the heart of the patient by the second implantable medical device according to a second therapy protocol; wherein the first implantable medical device is configured to determine whether the atrial contraction rate is above the threshold, and if the first implantable medical device determines that the atrial contraction rate is above the threshold; communicating from the first implantable medical device to the second implantable medical device a first command to begin delivering one or more pacing pulses according to the second therapy protocol, and not communicating the sensed atrial events from the first implantable medical device to the second implantable medical device in order to conserve energy that would otherwise be consumed by communicating through the body from the first implantable medical device to the second implantable medical device; and if the first implantable medical device determines that the atrial contraction rate subsequently falls below the threshold; and communicating from the first implantable medical device to the second implantable medical device a second command to stop the second implantable medical device from delivering one or more pacing pulses according to the second therapy protocol and returning to the first therapy protocol. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A medical device system for delivering pacing pulses to a heart of a patient, the medical device system comprising:
a first implantable medical device implantable at an atrial site and communicatively coupled to a second implanted medical device implantable at a ventricular site, wherein; the first implantable medical device is configured to; sense atrial events; determine, based on the sensed atrial events, an atrial contraction rate; determine whether the atrial contraction rate is above a threshold; if the atrial contraction rate is below the threshold, communicate each sensed atrial event to the second implantable medical device; and if the atrial contraction rate is above the threshold, communicate an artificial sensed atrial event per a first predetermined time period to the second implantable medical device, and the second implantable medical device is configured to operate in a tracking mode and deliver a pacing pulse in response to receiving each sensed atrial event and in response to receiving each artificial sensed atrial event. - View Dependent Claims (17, 18, 19)
Specification