Method for using a wireless pressure sensor to monitor pressure inside the human heart
First Claim
1. A method for measuring pressure within a heart, comprising the steps of:
- providing a passive wireless pressure sensor having a characteristic impedance and a deflectable surface, the characteristic impedance changing in response to deflection of the deflectable surface;
inserting the sensor into the body of a patient to a location proximate to the heart;
affixing the sensor to the heart at a location on an exterior wall of the heart such that the deflectable surface of the sensor is located outside of the heart and in direct contact with the exterior wall of the heart;
interrogating the sensor with an electromagnetic field;
receiving a signal from the sensor corresponding to the characteristic impedance of the sensor, which corresponds to a sensed pressure; and
leaving the sensor in situ so that future pressure measurements can be made.
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Accused Products
Abstract
A method for measuring pressure within a heart includes the steps of: (1) providing a passive wireless pressure sensor having a characteristic impedance and a deflectable surface, the characteristic impedance changing in response to deflection of the deflectable surface; (2) inserting the sensor to a location within the body of a patient at which the sensor can detect pressure within the heart; (3) affixing the sensor relative to the heart; (4) interrogating the sensor with an electromagnetic field; (5) receiving a signal from the sensor corresponding to a sensed pressure; and (6) leaving the sensor in situ so that future pressure measurements can be made.
43 Citations
5 Claims
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1. A method for measuring pressure within a heart, comprising the steps of:
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providing a passive wireless pressure sensor having a characteristic impedance and a deflectable surface, the characteristic impedance changing in response to deflection of the deflectable surface; inserting the sensor into the body of a patient to a location proximate to the heart; affixing the sensor to the heart at a location on an exterior wall of the heart such that the deflectable surface of the sensor is located outside of the heart and in direct contact with the exterior wall of the heart; interrogating the sensor with an electromagnetic field; receiving a signal from the sensor corresponding to the characteristic impedance of the sensor, which corresponds to a sensed pressure; and leaving the sensor in situ so that future pressure measurements can be made. - View Dependent Claims (2, 3, 4, 5)
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Specification