Rate adaptive cardiac pacer incorporating switched capacitor filter with cutoff frequency determined by heart rate
First Claim
1. In a rate adaptive pacer of the type comprising an implantable variable rate pulse generator operative to produce electrical stimulating pulses at a predetermined lower rate with the patient at rest, endocardial lead means coupled to said pulse generator having a stimulating electrode for applying said stimulating pulses to heart tissue and further electrodes for sensing an electrical impedance signal within at least one cardiac chamber, and signal processing means coupled to said further electrodes for producing a rate control signal for said pulse generator relating to said impedance signal, the improvement comprising:
- (a) adaptive filter means in said signal processing means, said adaptive filter means having a variable cut-off characteristic automatically determined by a changeable physiologic parameter;
(b) means coupled to said lead means for automatically producing a cut-off frequency control signal in relation to changes in said physiologic parameter; and
(c) means for applying said cut-off frequency control signal to said adaptive filter means for automatically changing the cut-off characteristic of said filter means with changes in said physiologic parameter.
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Accused Products
Abstract
A rate adaptive cardiac pacemaker incorporating a switched capacitor filter whose cut-off frequency is varied as a function of heart rate allows respiration-related signals appearing in the intracardiac impedance waveform to be separated from signals relating to systolic events over a frequency range of interest, allowing either or both of the respiration-related signal component or the systolic event component to be used in adjusting the pacing rate.
57 Citations
6 Claims
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1. In a rate adaptive pacer of the type comprising an implantable variable rate pulse generator operative to produce electrical stimulating pulses at a predetermined lower rate with the patient at rest, endocardial lead means coupled to said pulse generator having a stimulating electrode for applying said stimulating pulses to heart tissue and further electrodes for sensing an electrical impedance signal within at least one cardiac chamber, and signal processing means coupled to said further electrodes for producing a rate control signal for said pulse generator relating to said impedance signal, the improvement comprising:
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(a) adaptive filter means in said signal processing means, said adaptive filter means having a variable cut-off characteristic automatically determined by a changeable physiologic parameter; (b) means coupled to said lead means for automatically producing a cut-off frequency control signal in relation to changes in said physiologic parameter; and (c) means for applying said cut-off frequency control signal to said adaptive filter means for automatically changing the cut-off characteristic of said filter means with changes in said physiologic parameter.
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2. In a rate adaptive pacer of the type comprising an implantable variable rate pulse generator operative to produce electrical stimulating pulses at a predetermined lower rate with the patient at rest, endocardial lead means coupled to said pulse generator having a stimulating electrode for applying said stimulating pulses to heart tissue and further electrodes for sensing an electrical impedance signal within at least one cardiac chamber, said electrical impedance signal being modulated by systolic events and ventilatory events and signal processing means coupled to said further electrodes for producing a rate control signal for said pulse generator relating to said impedance signal, the improvement comprising:
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(a) switched capacitor filter means in said signal processing means, said filter means having a cut-off characteristic determined by the rate at which clock pulses are applied to said filter means; (b) means coupled to said lead means for producing said clock pulses in relation to the heart rate of the patient; and (c) means for separating the impedance signal into a first component modulated by systolic events and a second component modulated by ventilatory events wherein said means for separating comprises means for applying said clock pulses to said filter means for changing the cut-off characteristic of said filter means with changes in heart rate. - View Dependent Claims (3, 4, 5, 6)
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Specification