Temperature driven rate responsive cardiac pacemaker
First Claim
1. An implantable cardiac pacemaker for adaptively varying the heart rate of a patient according to whether the patient is resting or undergoing exercise, comprisingsensing means for measuring the blood temperature of the patient and for generating an electrical signal respresentative of that instantaneous temperature,means responsive to the temperature-representative signal for determining whether the time rate of change of the blood temperature is indicative of a state of rest or exercise by the patient,means storing separate mathematical relationships between heart rate and blood temperature having, respectively, a rate of change in the range from 5 to 25 beats per minute per degree C. representing rest state of the patient, and a rate of change in the range from 40 to 120 beats per minute per degree C. representing exercise state of the patient, andmeans responsive to the state-determining means for stimulating the patient'"'"'s heart rate according to one of the stored rest state and exercise state relationships between heart rate and blood temperature selected based on whether said determination is that the patient is then in the rest state or the exercise state.
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Accused Products
Abstract
An exercise responsive cardiac pacemaker (1) has a stimulation electrode (3) for introduction into the atrium or ventricle of the heart, a temperature sensor (4) situated in proximity to the electrode (3) for detecting the blood temperature, and a control circuit (8, 9, 10, 11) connected to the electrode (3) and the temperature sensor (4) by which the stimulation rate of the pacemaker is adaptively adjusted depending on the blood temperature. To ensure that the cardiac pacemaker works reliably in all physiological conditions of a patient, the stimulation rate is determined with reference to a field of characteristic curves (K1, K2), the individual characteristic curves constituting distinct algorithms relating heart rate to blood temperature for different physiological conditions of the pacemaker patient. A basic characteristic curve (K2) relates distinct heart rates to absolute blood temperatures under conditions without physical stress on the pacemaker patient. A set of parallel characteristic curves (K1) relates heart rate to blood temperature under conditions of exercise, the latter curves being separated from each other by absolute temperature values along and having a slope relating heart rate rise to blood temperature rise significantly higher than the slope of the basic characteristic curve.
50 Citations
20 Claims
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1. An implantable cardiac pacemaker for adaptively varying the heart rate of a patient according to whether the patient is resting or undergoing exercise, comprising
sensing means for measuring the blood temperature of the patient and for generating an electrical signal respresentative of that instantaneous temperature, means responsive to the temperature-representative signal for determining whether the time rate of change of the blood temperature is indicative of a state of rest or exercise by the patient, means storing separate mathematical relationships between heart rate and blood temperature having, respectively, a rate of change in the range from 5 to 25 beats per minute per degree C. representing rest state of the patient, and a rate of change in the range from 40 to 120 beats per minute per degree C. representing exercise state of the patient, and means responsive to the state-determining means for stimulating the patient'"'"'s heart rate according to one of the stored rest state and exercise state relationships between heart rate and blood temperature selected based on whether said determination is that the patient is then in the rest state or the exercise state.
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5. A cardiac pacemaker for delivering electrical stimuli to a patient'"'"'s heart, comprising
means for generating electrical stimuli at a periodic rate, means for producing a signal representing temperature of the patient'"'"'s central venous blood at a given point in time, means responsive to said signal over time for determining from the rate of change of the patient'"'"'s blood temperature over a predetermined interval of time whether the patient is then in a state of exercise or a state of non-exercise, means providing a first continuous function relating stimulation rate to measured blood temperature for a non-exercise state and providing a second continuous function relating a faster rate of change of stimulation rate to a measured unit of blood temperature for an exercise state than that of said first continuous function, and means responsive to said determination for regulating the rate at which said electrical stimuli are generated by said generating means according to both the instantaneous measurement of the patient'"'"'s blood temperature and the determined state of the patient, commensurate with said first continuous function when the patient is determined to be in a non-exercise state and commensurate with said second continuous function when the patient is determined to be in an exercise state.
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8. A stimulus generator for a stimulation rate-adaptive cardiac pacemaker, comprising
means for detecting a physiological parameter in a pacemaker patient representative of either a state of patient rest or a state of patient exercise, depending on the time rate of change of the parameter, means storing two different algorithms relating heart rate to said parameter, one for rest state and the other for exercise state, in which the exercise state algorithm specifies a greater rate of change of heart rate than that specified by said rest state algorithm relative to a unit change of said parameter, means for implementing a decision rule based on time rate of change of said parameter, by which a decision is to be made for selecting between said two different algorithms, means for controllably generating electrical stimuli at a variable rate, and means responsive to detection of said parameter to apply said decision rule to select between the two algorithms, for controlling the rate at which stimuli are generated by said controllable generating means according to the selected algorithm, and thereby, according to a heart rate physiologically appropriate to the patient'"'"'s state.
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10. A method for pacing the heart rate of a cardiac patient, comprising
measuring the patient'"'"'s absolute blood temperature at successive points in time, relating desired pacing rate to blood temperature according to an algorithm characterizing a metabolic state of the patient representing physical inactivity, and also according to an algorithm characterizing a metabolic state of the patient representing physical activity, the two algorithms differing in rate of change of pacing rate relative to unit change of blood temperature, pacing the patient'"'"'s heart at a selectively variable rate, selecting one of the algorithms at any of said points in time based on the rate of change of the measured blood temperature with time relative to a predetermined threshold value, the activity algorithm being selected when said rate of change exceeds said threshold value and the inactivity algorithm being selected when said rate of change is less than said threshold value, and adjusting the pacing rate under the control of the selected algorithm.
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11. In a cardiac pacemaker having control means for automatic adaptation of the periodic stimulation rate generated by the pulse generator of the pacemaker to the metabolic state of the pacemaker patient, in which said control means includes temperature sensor means, a pacing lead with a stimulation electrode connected to said pulse generator, said sensor means situated in said pacing lead in proximity to said electrode for transvenous introduction with said electrode into the atrium or ventricle of the patient'"'"'s heart for detecting the instantaneous tempeature value of venous blood therein at any given point in time, and circuit means connected to said sensor means and to said pulse generator for adjusting said stimulation rate based on the blood temperature detected by said sensor means, the improvement in which said circuit means comprises
means for storing a basic mathematical curve defining a predetermined relationship between heart rates and instantaneous blood temperature values corresponding to non-exercise conditions for a human being, and plural exercise mathematical curves commencing from diverse instantaneous blood temperature values along said basic curve and each defining a predetermined relationship between heart rates and relative change of blood temperature corresponding to exercise conditions for a human being, means coupled to said pulse generator for selectively applying one of said basic mathematical and plural exercise mathematical curves to adjust said stimulation rate according to the selectively applied curve, means for preselecting a desired threshold value of the relative change of the increasing blood temperature, and means coupled to said applying means and responsive to the instantaneous blood temperature values detected by said sensor means and to the relative change thereof over time for selecting said basic curve for application to adjust said stimulation rate whenever the relative change of the increasing blood temperature is less than said preselected threshold value, and for selecting an exercise curve for application to adjust said stimulation rate once the relative change of the increasing blood temperature exceeds said threshold value, said selecting means including means for designating a particular exercise curve according to the instantaneous blood temperature value detected by said sensor means at the point in time that the relative change of the blood temperature exceeds said threshold value.
Specification