Apparatus and method for the control of an implantable medical device
First Claim
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1. A device for altering the operation of a medical apparatus, a portion of the device of which is configured to be implanted within a human, the device comprising:
- a. a command transmitter for generating a digital bit string;
b. an electromagnet coupled to the command transmitter to develop a series of magnetic pulses corresponding to the digital bit string;
c. an implantable giant magnetoresistance ratio sensor capable of sensing a time-varying magnetic field, to receive the series of magnetic pulses and develop an output signal;
d. a microprocessor;
e. an implantable sensor signal conditioner electrically coupled to the microprocessor to receive the output signal from the sensor and develop a signal in a condition for use by the microprocessor; and
f. means to modify the operation of the microprocessor based upon the signal developed by the signal conditioner.
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Abstract
An implantable medical device includes a giant magnetoresistance ratio (GMR) sensor is used to detect the presence of a magnet in order to command the device to enter a predetermined mode of operation. The GMR responds to a modulated magnetic field generated by the programming of a command transmitter apparatus for non-invasive programming or controlling of the implanted device. The implantable medical device also monitors for the presence of a steady magnetic field to place the implanted device in a known, safe mode.
220 Citations
3 Claims
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1. A device for altering the operation of a medical apparatus, a portion of the device of which is configured to be implanted within a human, the device comprising:
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a. a command transmitter for generating a digital bit string; b. an electromagnet coupled to the command transmitter to develop a series of magnetic pulses corresponding to the digital bit string; c. an implantable giant magnetoresistance ratio sensor capable of sensing a time-varying magnetic field, to receive the series of magnetic pulses and develop an output signal; d. a microprocessor; e. an implantable sensor signal conditioner electrically coupled to the microprocessor to receive the output signal from the sensor and develop a signal in a condition for use by the microprocessor; and f. means to modify the operation of the microprocessor based upon the signal developed by the signal conditioner.
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2. In an apparatus comprising a medical device implantable in a human and means of communicating with the implanted medical device, the implantable medical device including a processor programmed to define predetermined operating parameters of the medical device, a method of altering the operating parameters comprising the steps of:
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a. developing a digital bit string representative of a command for communication to the medical device; b. driving an electromagnet to produce a digital series of magnetic pulses representative of the digital bit string; c. receiving the series of magnetic pulses in a giant magnetoresistance ratio sensor in the medical device to develop a modulated output voltage; d. conditioning the modulated output from the sensor to produce a conditioned bit stream; e. receiving the conditioned bit stream in the processor in the medical device to alter the operating parameters of the medical device; and f. altering the programming of the processor based upon the received conditioned bit stream.
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3. A device for altering the operation of a medical apparatus, a portion of the device of which is configured to be implanted within a human, the device comprising:
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a. a command transmitter for generating a steady magnetic field; b. an implantable giant magnetoresistance ratio sensor capable of sensing the presence of the steady magnetic field to develop an output command signal to place the apparatus in a known, safe mode; and c. and implantable sensor signal conditioner to receive the output command signal from the sensor and issue a magnet mode signal to the medical device.
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Specification