Cardiac rhythm management device with automatic optimization of performance related pacing parameters
First Claim
1. A cardiac pacemaker comprising;
- (a) means for sensing atrial and ventricular depolarization signals;
(b) a variable frequency pulse generator having a control input and an output;
(c) means for coupling said output to at least one ventricle;
(d) control means coupled to said control input of said variable frequency pulse generator and to said means for sensing atrial and ventricular depolarization signals, said control means including a microprocessor having a memory for storing state information therein, said microprocessor being programmed to periodically compute heart rate and variations in said heart rate and incrementally adjust an A-V delay interval between the sensing of an atrial depolarization signal and a next ensuing output from said variable frequency pulse generator from a lower limit toward an upper limit only when said heart rate is determined to be stable and variations in said heart rate are determined to be below a predetermined threshold and to store for each incremental adjustment of A-V interval that A-V interval and a corresponding steady state mean heart rate value; and
means responsive to said A-V interval reaching said upper limit for reading out from said memory the state information consisting of the stored A-V interval value corresponding to the lowest stored value of mean heart rate, said control means then using that A-V interval value in controlling operation of said variable frequency pulse generator.
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Accused Products
Abstract
A dual chamber cardiac pacemaker incorporating a microprocessor-based controller which is programmed to automatically establish an A-V interval at a value which provides optimum cardiac function but without the need for a special sensor for measuring cardiac function is described. The microprocessor is programmed to continuously monitor heart rate and variation in heart rate and only when the patient is stable, enter a parameter adjustment loop in which the pacemaker'"'"'s A-V interval is incremented in several discrete steps and for each step, the corresponding average steady-state heart rate is measured and stored. When the A-V interval incrementation process causes that interval to reach a predetermined upper limit, the pacemaker'"'"'s A-V interval is set at the value that corresponds with the minimum average heart rate to thereby maximize cardiac performance.
134 Citations
6 Claims
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1. A cardiac pacemaker comprising;
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(a) means for sensing atrial and ventricular depolarization signals; (b) a variable frequency pulse generator having a control input and an output; (c) means for coupling said output to at least one ventricle; (d) control means coupled to said control input of said variable frequency pulse generator and to said means for sensing atrial and ventricular depolarization signals, said control means including a microprocessor having a memory for storing state information therein, said microprocessor being programmed to periodically compute heart rate and variations in said heart rate and incrementally adjust an A-V delay interval between the sensing of an atrial depolarization signal and a next ensuing output from said variable frequency pulse generator from a lower limit toward an upper limit only when said heart rate is determined to be stable and variations in said heart rate are determined to be below a predetermined threshold and to store for each incremental adjustment of A-V interval that A-V interval and a corresponding steady state mean heart rate value; and
means responsive to said A-V interval reaching said upper limit for reading out from said memory the state information consisting of the stored A-V interval value corresponding to the lowest stored value of mean heart rate, said control means then using that A-V interval value in controlling operation of said variable frequency pulse generator. - View Dependent Claims (2, 3, 4, 5)
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6. A method of operating a cardiac pacemaker, said pacemaker being of a dual chamber type having means for sensing atrial and ventricular depolarization signals and pulse generator means for applying stimulating pulses to at least one ventricle following a predetermined A-V interval from an occurrence of a preceding atrial depolarization signal and a microprocessor-based controller having a memory means for storing state variables therein, said controller being coupled to said sensing means and in controlling relation to said pulse generator means, comprising the steps of;
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(a) monitoring heart rate and heart rate variability; (b) setting the A-V interval to a minimum value when the monitored heart rate and heart rate variability are each below associated threshold values; (c) continuing to monitor heart rate and variability following step (b) so long as the heart rate and heart rate variability remain below said threshold value until the heart rate reaches a steady state value; (d) storing a mean heart rate value and associated A-V delay value in said memory means; (e) incrementing said A-V interval from said minimum value and repeating steps (c) and (d) until the A-V interval reaches a predetermined maximum value; (f) reading from said memory means the A-V interval associated with said minimum mean heart rate; and (g) using the A-V interval read out from said memory for controlling said pulse generator means.
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Specification