Cardiac pacemaker with automatic response optimization of a physiologic sensor based on a second sensor
First Claim
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1. A rate-adaptive cardiac pacemaker, comprising:
- (a) physiologic rate sensor means for sensing a physiologic parameter indicative of metabolic demand in a patient and producing an electrical signal proportional to the metabolic demand;
(b) second sensor means for sensing a parameter indicative of patient activity and producing an electrical signal proportional to the patient'"'"'s level of activity;
(c) controller means for generating a dynamic target rate based on averages of maximum peak values of the electrical signal from said second sensor means occurring during predetermined time intervals;
(d) optimization means for automatically optimizing a rate response factor of said physiologic rate sensor means toward said dynamic target rate by a predetermined percentage if an average physiologic sensor rate is above or below the dynamic target rate; and
(e) variable rate pulse generator means for stimulating said patient'"'"'s heart based on the output from said optimization means.
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Abstract
A rate adaptive cardiac pacemaker having a first sensor for measuring a physiologic parameter reflecting metabolic demand and a second sensor for measuring a parameter reflecting the physical motion or activity of the patient, wherein the second sensor is used to generate a dynamic target pacing rate which the first sensor is optimized to over time, thereby reducing the time constant for the adaptation of the first sensor and minimizing the amount of clinical time required to initialize the cardiac pacemaker.
439 Citations
7 Claims
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1. A rate-adaptive cardiac pacemaker, comprising:
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(a) physiologic rate sensor means for sensing a physiologic parameter indicative of metabolic demand in a patient and producing an electrical signal proportional to the metabolic demand; (b) second sensor means for sensing a parameter indicative of patient activity and producing an electrical signal proportional to the patient'"'"'s level of activity; (c) controller means for generating a dynamic target rate based on averages of maximum peak values of the electrical signal from said second sensor means occurring during predetermined time intervals; (d) optimization means for automatically optimizing a rate response factor of said physiologic rate sensor means toward said dynamic target rate by a predetermined percentage if an average physiologic sensor rate is above or below the dynamic target rate; and (e) variable rate pulse generator means for stimulating said patient'"'"'s heart based on the output from said optimization means. - View Dependent Claims (2, 3)
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4. In a cardiac pacemaker of the type having pulse generating means for selectively applying stimulating pulses to cardiac tissue, the improvement comprising in combination:
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(a) physiologic sensor means for sensing a physiologic parameter indicative of metabolic demand in a patient; (b) second sensor means for sensing a parameter indicative of patient activity; (c) controller means for generating a dynamic target rate based on the output from said second sensor means, said controller means including first detector means for detecting maximum output measurements from said second sensor means over each of a plurality of incremental periods of time occurring within a predetermined period of time, second detector means for detecting output measurements from said physiologic sensor means corresponding to each of said maximum output measurements from said second sensor means over each of said plurality of incremental periods of time within said predetermined period of time, first averaging means for producing a dynamic target rate comprising the average of said maximum output measurements from said second sensing means over said predetermined period of time, and second averaging means for generating an average physiologic sensor rate comprising the average of said output measurements from said physiologic sensor means corresponding to each of said maximum output measurements from said second sensor means over said predetermined period of time; (d) optimization means for automatically optimizing the response rate factor of said physiologic sensor means toward said dynamic target rate, said optimization means including comparison means for comparing said average physiologic sensor rate to said dynamic target rate, and adjustment means for automatically adjusting the rate response factor of said physiologic sensor means a predetermined percentage if said average physiologic sensor rate is above or below said dynamic target rate; and (e) variable rate pulse generator means for stimulating said patient'"'"'s heart based on the output from said optimization means. - View Dependent Claims (5, 6)
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7. A method of automatically optimizing a rate-responsive cardiac pacemaker, comprising the steps of:
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(a) providing physiologic sensor means for sensing a physiologic parameter indicative of metabolic demand in a patient; (b) providing activity sensor means for sensing a parameter indicative of patient activity and producing a signal output proportional thereto; (c) detecting peak values of the signal output during first predetermined time intervals; (d) averaging the peak values at a given time interval to generate a dynamic target rate; and (e) automatically adjusting the rate response factor of said physiologic sensor means based on said dynamic target rate. (e) automatically adjusting the rate response factor of said physiologic sensor means by a predetermined percentage based on said dynamic target rate.
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Specification