Synchronized atrial anti-tachy pacing system and method
First Claim
1. An implantable cardiac pacing device, comprising:
- ventricular pacing means for pacing the patient'"'"'s ventricle with pace pulses at an adaptable pacing interval;
AT means for determining AT and for determining the timing of the start of an AT episode;
train means for delivering an ATP train in fixed relation to said AT start;
algorithm means activated at said start of an AT episode for determining if ventricular pace pulses can be delivered following a said AT start with an adapted pacing interval whereby a synchronized ventricular pace pulse will be delivered synchronized to the last atrial pulse of a said AT train that has been delivered, said determining including determining said adapted pacing interval subject to predetermined pacing interval and AV criteria;
temporary means for temporarily changing the pacing interval to said adapted value when it is determined that a said adapted pacing interval can be determined;
wait means operative if said algorithm means determines that a said synchronized pace pulse cannot be delivered for activating said algorithm means after waiting for sensing of another atrial beat; and
initiating means for initiating said train means to deliver a said ATP train upon a said pacing interval determination that a synchronized ventricular pace pulse can be delivered.
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Accused Products
Abstract
A system and method for an implantable cardiac pacing device provide for delivery of anti-tachycardia pacing of the atrium upon detection of atrial tachycardia combined with automatic re-synchronization of ventricular pacing directly following the last atrial pulse of the anti-tachycardia scheme. At the onset of delivery of the ATP train or like scheme of ATP, an appropriate ventricular pacing interval is calculated to enable asynchronous pacing of the ventricle during the ATP and synchronous delivery of the next ventricular pulse at a delay following the end of the ATP train. Upon determination of AT, an algorithm is used to calculate if a ventricular pacing interval can be found that meets maximum and minimum pacing criteria and also provides that the next ventricular pace pulse following the end of the ATP train will follow the last atrial pulse of the train by a suitable AV delay. If such a suitable pacing interval is found, the ventricular pacing interval is set to a temporary value and the train is delivered. If such a pacing interval cannot be initially determined the system waits for one more atrial sense and then repeats the determination to find such a suitable ventricular pacing interval.
65 Citations
36 Claims
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1. An implantable cardiac pacing device, comprising:
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ventricular pacing means for pacing the patient'"'"'s ventricle with pace pulses at an adaptable pacing interval; AT means for determining AT and for determining the timing of the start of an AT episode; train means for delivering an ATP train in fixed relation to said AT start; algorithm means activated at said start of an AT episode for determining if ventricular pace pulses can be delivered following a said AT start with an adapted pacing interval whereby a synchronized ventricular pace pulse will be delivered synchronized to the last atrial pulse of a said AT train that has been delivered, said determining including determining said adapted pacing interval subject to predetermined pacing interval and AV criteria; temporary means for temporarily changing the pacing interval to said adapted value when it is determined that a said adapted pacing interval can be determined; wait means operative if said algorithm means determines that a said synchronized pace pulse cannot be delivered for activating said algorithm means after waiting for sensing of another atrial beat; and initiating means for initiating said train means to deliver a said ATP train upon a said pacing interval determination that a synchronized ventricular pace pulse can be delivered. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An implantable cardiac pacing system, comprising:
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ventricular pacing means for pacing the patient'"'"'s ventricle with pace pulses delivered at an adaptable pacing interval; AT means for determining the occurrence of AT and for determining a designated time of start of AT; train means for delivering an ATP train of atrial pulses in fixed relation to said AT start; and adapting means for adapting the pacing interval of said ventricular pacing means so that the next ventricular pace pulse delivered after the end of said ATP train is re-synchronized to the last atrial pulse of said ATP train; wherein said adapting means comprises delay means for determining when a suitable pacing interval cannot be calculated at the time of AT start and for then delaying delivery of a said ATP train and calculation of a suitable adapted pacing interval by one atrial cycle. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A method of dual chamber pacing, comprising:
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determining the existence of atrial tachycardia (AT) and designating a start of said AT; storing data concerning an ATP sequence of atrial pulses to be delivered to interrupt an AT; determining a temporary pacing interval for asynchronously pacing the ventricle after start of AT, wherein said temporary pacing interval meets predetermined rate criteria and is calculated to provide for re-synchronization after the last atrial pulse of said ATP sequence; delivering said ATP sequence in timed relation to said AT start; delivering ventricular pace pulses at said temporary pacing interval through the duration of said sequence; delivering the next ventricular pulse following the end of said sequence at said temporary pacing interval, whereby said next ventricular pulse is synchronized to the last atrial pulse of said ATP sequence, thereby re-synchronizing ventricular pacing; and determining when a temporary pacing interval cannot be calculated that meets predetermined criteria, delaying delivery of said ATP sequence, and sensing the next atrial beat. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27)
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28. A pacing system for detecting and treating atrial tachycardia in a patient and re-synchronizing ventricular pacing of the patient directly after the tachycardia treatment, comprising:
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AT means for delivering an ATP train of a fixed sequence of pulses to the patient'"'"'s atrium; temporary means for delivering asynchronous ventricular pacing pulses at a temporary pacing interval to the patient'"'"'s ventricle during said ATP train and for the next ventricular pacing pulse after the last pulse of said sequence, whereby said next ventricular pacing pulse is synchronously timed with respect to said last sequence pulse, wherein said temporary means comprises calculating means for calculating said temporary pacing interval; storage means for storing pacing interval criteria and AV criteria; and delay means for delaying the operation of said AT means and said temporary means until said calculating means can calculate a temporary pacing interval that meets said stored pacing interval and AV criteria wherein said delay means initiates operation of said AT means and said calculating means after one additional atrial beat is sensed. - View Dependent Claims (29, 30, 31)
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32. A method of optimising synchronous pacing of a patient following an episode of atrial tachycardia, comprising:
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detecting atrial tachycardia and preparing delivery of an ATP sequence to the patient'"'"'s atrium; calculating a temporary pacing interval for asynchronous pacing of the patient'"'"'s ventricle while said ATP sequence is delivered and which will enable delivery of a next ventricular pace pulse after the end of said sequence that is synchronously timed in relation to the end of the ATP sequence; and delivering said ATP sequence and asynchronously pacing the ventricle at said temporary pacing interval through and including delivery of a synchronous pace pulse to the ventricle after the end of said sequence; wherein said calculating comprises calculating a pacing interval that is between a predetermined minimum value and a predetermined maximum value and determining that said synchronous pace pulse is delivered within a predetermined AV range following the end of said ATP sequence; storing values of AV max and AV min; and delivering said synchronous pace pulse at an AV delay after the end of said ATP sequence that is no less than AV min and no more than AV max. - View Dependent Claims (33, 34, 35)
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36. A system of cardiac pacing of a patient, comprising:
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AT means for detecting the presence of AT; ATP means for delivering an ATP sequence of atrial pulses to the patient'"'"'s atrium in response to detected AT; ventricular pacing means for pacing the patient'"'"'s ventricle; rate criteria means for limiting the rate of ventricular pacing; and control means for controlling said ventricular pacing means to deliver ventricular pace pulses during said ATP sequence and for a next ventricular pace pulse after the end of said sequence at a rate that meets said rate criteria and provides that said next ventricular pace pulse is in cardiac synchrony with the last atrial pulse of said sequence wherein said control means comprises AV means for storing predetermined AV criteria including values of AV max and AV min and calculating means for calculating a temporary pacing interval that meets said rate criteria and said AV criteria and also provides that said next ventricular pace pulse is delivered following said last atrial pace pulse by an AV interval that is no less than AV min and no more than AV max.
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Specification