Method and apparatus for cardiac impedance sensing
First Claim
1. A cardiac stimulation apparatus comprising:
- a stimulator arranged to stimulate a patient'"'"'s heart;
a charging circuit and a first capacitor, said charging circuit arranged to charge said first capacitor and said first capacitor adapted to produce a pulse when said first capacitor is discharged;
means for electrically transmitting said pulse through at least a portion of the patient'"'"'s body;
a first impedance measuring circuit for developing a first signal representative of the voltage across said first capacitor when charged and a second signal representative of the voltage across said first capacitor when said first capacitor has been discharged to produce said pulse, said first impedance measuring circuit periodically measuring the impedance, anda second impedance measuring circuit,means for detecting an impedance imbalance, andmeans for activating said second impedance measuring circuit when said impedance imbalance is detected.
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Accused Products
Abstract
A method and apparatus for measuring impedance of heart tissue or the leads associated with a cardiac stimulation apparatus involves charging a capacitor, storing the value of the voltage across the capacitor when charged, discharging the capacitor into said lead/heart system and storing the voltage on said capacitor when discharged. The two voltages may then be used to determine the combined impedance of the lead and the heart tissue. This may be advantageously accomplished by using separate circuits to measure each of the voltages of the capacitor and storing those voltages. These voltages then may be applied to an analog-to-digital converter which converts the ratio of said voltages to digital form. This value can then be used to calculate the combined impedance of the heart tissue or the lead. If one of the two impedances is known the other can then be easily determined.
122 Citations
18 Claims
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1. A cardiac stimulation apparatus comprising:
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a stimulator arranged to stimulate a patient'"'"'s heart; a charging circuit and a first capacitor, said charging circuit arranged to charge said first capacitor and said first capacitor adapted to produce a pulse when said first capacitor is discharged; means for electrically transmitting said pulse through at least a portion of the patient'"'"'s body; a first impedance measuring circuit for developing a first signal representative of the voltage across said first capacitor when charged and a second signal representative of the voltage across said first capacitor when said first capacitor has been discharged to produce said pulse, said first impedance measuring circuit periodically measuring the impedance, and a second impedance measuring circuit, means for detecting an impedance imbalance, and means for activating said second impedance measuring circuit when said impedance imbalance is detected. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for cardiac stimulation comprising the steps of:
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charging a capacitor to a first voltage; measuring said first voltage when said capacitor is charged using a first measurement circuit to produce a first signal representative of said first voltage; discharging said first capacitor into heart tissue; and measuring the voltage on said capacitor when said capacitor has been discharged using a second measurement circuit to produce a second signal representative of said second voltage transforming said first and second signals into a ratio of the voltages on said capacitor when charged and when discharged, and converting said ratio into digital form from analog form. - View Dependent Claims (11)
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12. A cardiac stimulation apparatus comprising:
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a stimulator arranged to stimulate a patient'"'"'s heart; a charging circuit and a first capacitor, said charging circuit arranged to charge said first capacitor and said first capacitor adapted to produce a pulse when said first capacitor is discharged; means for electrically transmitting said pulse through at least a portion of the patient'"'"'s body; and a circuit for developing a first signal representative of the voltage across said first capacitor when charged and a second signal representative of the voltage across said first capacitor when said first capacitor has been discharged to produce said pulse, an analog-to-digital converter having a reference input and a signal input, the reference input to said analog-to-digital converter connected to receive said first signal and said signal input to said analog-to-digital converter connected to receive said second signal for producing a signal representative of a ratio of the discharged voltage to the charged voltage across said first capacitor.
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13. A cardiac stimulation apparatus comprising:
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a stimulator arranged to stimulate a patient'"'"'s heart; a charging circuit and a first capacitor, said charging circuit arranged to charge said first capacitor and said first capacitor adapted to produce a pulse when said first capacitor is discharged; means for electrically transmitting said pulse through at least a portion of the patient'"'"'s body; and a circuit for developing a first signal representative of the voltage across said first capacitor when charged and a second signal representative of the voltage across said first capacitor when said first capacitor has been discharged to produce said pulse, said signal developing circuit comprising a first detector circuit connected to said first capacitor, said first detector circuit having a first switch, a second capacitor, and a first sample-and-hold circuit, wherein said first capacitor is connected via said first switch to said second capacitor and said second capacitor is connected to said first sample-and-hold circuit for producing an output signal representative of the voltage on the first capacitor when charged. - View Dependent Claims (14, 15, 16, 17)
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18. A cardiac stimulation apparatus comprising:
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a stimulator arranged to stimulate a patient'"'"'s heart; a charging circuit and a first capacitor, said charging circuit arranged to charge said first capacitor and said first capacitor adapted to produce a pulse when said first capacitor is discharged; means for electrically transmitting said pulse through at least a portion of the patient'"'"'s body; a first impedance measuring circuit for periodically measuring the impedance through said portion of said patient'"'"'s body, and a second impedance measuring circuit, means for detecting an impedance imbalance, and means for activating said second impedance measuring circuit when said impedance imbalance is detected.
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Specification