Systems and methods of monitoring the acoustic coupling of medical devices
First Claim
1. A system for monitoring the acoustic coupling of an acoustic transducer attached to a patient'"'"'s body, comprising:
- an acoustic transducer attachable to the body and in acoustic communication with an implantable medical device;
a signal generator coupled to the acoustic transducer, the signal generator adapted to supply a time-varying electrical signal to the acoustic transducer for generating an acoustic wave;
a circuit configured to measure at least one electrical parameter of the acoustic transducer in response to the electrical signal while the transducer is acoustically loaded to a tissue interface of the body, the at least one electrical parameter including a frequency parameter associated with a frequency-dependent response of the acoustic transducer to the time-varying electrical signal; and
an evaluation module adapted to evaluate the degree of acoustic coupling of the loaded transducer to the tissue interface by evaluating a complex impedance curve associated with the loaded transducer based at least in part on the measured frequency parameter, wherein the evaluation module is configured to evaluate the degree of acoustic coupling by causing the signal generator to sweep the electrical signal across a frequency range and measure a corresponding impedance parameter at each of a plurality of frequencies in the frequency range, wherein the evaluation module is further configured to analyze a width of the complex impedance curve.
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Accused Products
Abstract
Systems and methods for monitoring the acoustic coupling of medical devices is disclosed. An illustrative system for monitoring the acoustic coupling of an acoustic transducer attached to a patient'"'"'s body includes a signal generator adapted to supply an electrical signal to the transducer, a circuit configured to measure at least one electrical parameter of the transducer, and a processor adapted to evaluate the degree of acoustic coupling of the transducer to the body based on the measured electrical signal. The processor can measure the frequency response of the acoustic transducer to the electrical signal, a time domain response of the acoustic transducer to the electrical signal, or a combination of both.
240 Citations
13 Claims
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1. A system for monitoring the acoustic coupling of an acoustic transducer attached to a patient'"'"'s body, comprising:
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an acoustic transducer attachable to the body and in acoustic communication with an implantable medical device; a signal generator coupled to the acoustic transducer, the signal generator adapted to supply a time-varying electrical signal to the acoustic transducer for generating an acoustic wave; a circuit configured to measure at least one electrical parameter of the acoustic transducer in response to the electrical signal while the transducer is acoustically loaded to a tissue interface of the body, the at least one electrical parameter including a frequency parameter associated with a frequency-dependent response of the acoustic transducer to the time-varying electrical signal; and an evaluation module adapted to evaluate the degree of acoustic coupling of the loaded transducer to the tissue interface by evaluating a complex impedance curve associated with the loaded transducer based at least in part on the measured frequency parameter, wherein the evaluation module is configured to evaluate the degree of acoustic coupling by causing the signal generator to sweep the electrical signal across a frequency range and measure a corresponding impedance parameter at each of a plurality of frequencies in the frequency range, wherein the evaluation module is further configured to analyze a width of the complex impedance curve. - View Dependent Claims (2, 3, 4, 5)
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6. A method of monitoring the acoustic coupling of an acoustic transducer attached to a patient'"'"'s body, comprising:
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providing a time-varying electrical signal to the acoustic transducer; measuring at least one electrical parameter associated with the response of the acoustic transducer to the electrical signal while the transducer is acoustically loaded to a tissue interface of the body, the at least one electrical parameter including a frequency parameter associated with a frequency-dependent response of the acoustic transducer to the time-varying electrical signal; and evaluating the degree of acoustic coupling of the loaded acoustic transducer to the tissue interface by evaluating a complex impedance curve associated with the loaded transducer based at least in part on the measured frequency parameter, wherein evaluating the degree of acoustic coupling comprises sweeping the electrical signal across a frequency range and measuring a corresponding impedance parameter at each of a plurality of frequencies in the frequency range, and wherein evaluating the degree of acoustic coupling further comprises analyzing a width of the complex impedance curve. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A method of monitoring the acoustic coupling of an acoustic transducer attached to a patient'"'"'s body, comprising:
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providing a time-varying electrical signal to an acoustic transducer acoustically loaded to a tissue interface of the body, the transducer including a number of terminal leads; measuring a voltage parameter at the terminal leads in response to the electrical signal; measuring a current parameter across the terminal leads in response to the electrical signal; measuring a frequency parameter associated with a frequency-dependent response of the loaded acoustic transducer to the electrical signal; and evaluating the degree of acoustic coupling of the acoustic transducer to the tissue interface by evaluating a complex impedance curve associated with the loaded transducer based at least in part on the measured voltage, current, and frequency parameters, wherein evaluating the degree of acoustic coupling comprises sweeping the electrical signal across a frequency range and measuring a corresponding impedance parameter at each of a plurality of frequencies in the frequency range, and wherein evaluating the degree of acoustic coupling further comprises analyzing a width of the complex impedance curve.
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Specification