Implantable medical device with voice responding and recording capacity
First Claim
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1. A medical device for implantation into a patient comprising:
- an acoustic transducer configured for receiving acoustic energy from within the patient'"'"'s body and generating electrical audio signals in accordance therewith;
sampling circuitry and an analog-to-digital converter for producing digitized samples of a signal received from the acoustic transducer; and
circuitry for recording of a plurality of samples of the digitized acoustic signals including voice and heart sounds in a storage medium wherein the acoustic transducer, sampling circuitry and circuitry are adapted for implantation into a patient.
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Abstract
An implantable medical device such as a cardiac pacemaker or implantable cardioverter/defibrillator with the capability of receiving communications in the form of speech spoken by the patient. An acoustic transducer is incorporated within the device which along with associated filtering circuitry enables the voice communication to be used to affect the operation of the device or recorded for later playback.
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Citations
17 Claims
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1. A medical device for implantation into a patient comprising:
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an acoustic transducer configured for receiving acoustic energy from within the patient'"'"'s body and generating electrical audio signals in accordance therewith;
sampling circuitry and an analog-to-digital converter for producing digitized samples of a signal received from the acoustic transducer; and
circuitry for recording of a plurality of samples of the digitized acoustic signals including voice and heart sounds in a storage medium wherein the acoustic transducer, sampling circuitry and circuitry are adapted for implantation into a patient. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A medical device adapted for implantation into a patient, comprising:
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an acoustic transducer for receiving acoustic energy from within the patient'"'"'s body and generating electrical audio signals in accordance therewith;
sampling circuitry and an analog-to-digital converter for producing digitized samples of a signal received from the acoustic transducer;
speech recognition circuitry for analyzing the digitized signal and deriving a message therefrom;
circuitry for interpreting the received message and altering the operation of the device in accordance therewith;
a sensing channel for sensing electrical activity of the patient'"'"'s heart in whom the device is implanted;
circuitry for producing digitized samples of the sensed electrical activity; and
,circuitry for recording of a plurality of the digitized samples of the sensed electrical activity in a storage medium when a selected message is received. - View Dependent Claims (9)
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10. A method for controlling the operation of an implantable medical device comprising:
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receiving acoustic energy within a patient'"'"'s body and generating electrical audio signals in accordance therewith;
analyzing the audio signals and deriving a message therefrom;
interpreting the message and altering the operation of the device in accordance therewith;
sensing electrical activity of a patient'"'"'s heart in whom the device is implanted;
producing digitized samples of the sensed electrical activity; and
,recording a plurality of the digitized samples of the sensed electrical activity in a storage medium when the selected message is received. - View Dependent Claims (11, 12, 14, 16, 17)
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13. The method of clam 10 wherein the implantable medical device is adapted for implantation into the heart of the patient.
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15. A medical device adapted for implantation into a heart of a patient, comprising:
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an acoustic transducer for receiving acoustic energy associated with speech from within the patient'"'"'s body and generating electrical audio signals in accordance therewith;
sampling circuitry and an analog-to-digital converter for producing digitized samples of a signal received from the acoustic transducer wherein the electrical audio signal has a bandwidth frequency of at least 2 KHz;
speech recognition circuitry for analyzing the digitized signal and deriving a message therefrom;
speech recognition circuitry for recording of a plurality of samples of the digitized acoustic signals in a storage medium;
circuitry for interpreting the received message and altering the operation of the device in accordance therewith.
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Specification