Functional neuromuscular stimulation system
First Claim
1. A system for transcutaneously telemetering position signals out of a human body and for controlling a functional electrical stimulator implanted in said human body, said system comprising:
- an implantable radio frequency receiving coil for receiving a transcutaneous radio frequency signal;
an implantable power supply connected to said radio frequency receiving coil, said power supply converting received transcutaneous radio frequency signals into electromotive power;
an implantable input signal generator electrically powered by said implantable power supply for generating at least one analog input movement signal to indicate voluntary bodily movement along an axis;
an implantable encoder having an input operatively connected with said implantable input signal generator for encoding said movement signal into output data in a preselected data format;
an impedance altering means connected with said encoder and said implantable radio frequency signal receiving coil to selectively change an impedance of said implantable radio frequency signal receiving coil;
an external radio frequency signal transmit coil inductively coupled with said implantable radio frequency signal receiving coil, such that impedance changes in said implantable radio frequency signal receiving coil are sensed by said external radio frequency signal transmit coil to establish a sensed modulated movement signal in said external transmit coil;
an external control system electrically connected to said external radio frequency transmit coil for monitoring said sensed modulated movement signal in said external radio frequency transmit coil, said external control system including;
a demodulator for recovering the output data of said encoder from the sensed modulated movement signal of said external transmit coil,a pulse width algorithm means for applying a preselected pulse width algorithm to the recovered output data to derive a first pulse width,an amplitude algorithm means for applying an amplitude algorithm to the recovered output data to derive a first amplitude therefrom,an interpulse interval algorithm means for applying an interpulse algorithm to the recovered output data to derive a first interpulse interval therefrom; and
,a stimulation pulse train signal generator for generating a stimulus pulse train signal which has the first pulse width and the first pulse amplitude;
an implantable functional electrical stimulator for receiving said stimulation pulse train signal from said stimulation pulse train signal generator and generating stimulation pulses with the first pulse width, the first pulse amplitude, and separated by the first interpulse interval; and
,at least one electrode operatively connected with the functional electrical stimulator for applying said stimulation pulses to muscle tissue of said human body.
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Abstract
An input command controller (A) provides logic function selection signals and proportional signals. The signals are generated by movement of a ball member (12) and socket member (14) relative to two orthogonal axes. When the joystick is implanted, a transmitter (50) transmits the signals to a patient carried unit (B). The patient carried unit includes an amplitude modulation algorithm such as a look-up table (124), a pulse width modulation algorithm (132), and an interpulse interval modulation algorithm (128). The algorithms derive corresponding stimulus pulse train parameters from the proportional signal which parameters are transmitted to an implanted unit (D). The implanted unit has a power supply (302) that is powered by the carrier frequency of the transmitted signal and stimulation pulse train parameter decoders (314, 316, 318). An output unit (320) assembles pulse trains with the decoded parameters for application to implanted electrodes (E). A laboratory system (C) is periodically connected with the patient carried unit to measure for changes in patient performance and response and reprogram the algorithm accordingly. The laboratory system also performs initial examination, set up, and other functions.
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Citations
9 Claims
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1. A system for transcutaneously telemetering position signals out of a human body and for controlling a functional electrical stimulator implanted in said human body, said system comprising:
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an implantable radio frequency receiving coil for receiving a transcutaneous radio frequency signal; an implantable power supply connected to said radio frequency receiving coil, said power supply converting received transcutaneous radio frequency signals into electromotive power; an implantable input signal generator electrically powered by said implantable power supply for generating at least one analog input movement signal to indicate voluntary bodily movement along an axis; an implantable encoder having an input operatively connected with said implantable input signal generator for encoding said movement signal into output data in a preselected data format; an impedance altering means connected with said encoder and said implantable radio frequency signal receiving coil to selectively change an impedance of said implantable radio frequency signal receiving coil; an external radio frequency signal transmit coil inductively coupled with said implantable radio frequency signal receiving coil, such that impedance changes in said implantable radio frequency signal receiving coil are sensed by said external radio frequency signal transmit coil to establish a sensed modulated movement signal in said external transmit coil; an external control system electrically connected to said external radio frequency transmit coil for monitoring said sensed modulated movement signal in said external radio frequency transmit coil, said external control system including; a demodulator for recovering the output data of said encoder from the sensed modulated movement signal of said external transmit coil, a pulse width algorithm means for applying a preselected pulse width algorithm to the recovered output data to derive a first pulse width, an amplitude algorithm means for applying an amplitude algorithm to the recovered output data to derive a first amplitude therefrom, an interpulse interval algorithm means for applying an interpulse algorithm to the recovered output data to derive a first interpulse interval therefrom; and
,a stimulation pulse train signal generator for generating a stimulus pulse train signal which has the first pulse width and the first pulse amplitude; an implantable functional electrical stimulator for receiving said stimulation pulse train signal from said stimulation pulse train signal generator and generating stimulation pulses with the first pulse width, the first pulse amplitude, and separated by the first interpulse interval; and
,at least one electrode operatively connected with the functional electrical stimulator for applying said stimulation pulses to muscle tissue of said human body. - View Dependent Claims (2, 3)
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4. A method of generating patient muscle stimulation parameters based upon voluntary patient movement and transmitting the parameters out of the patient using only a radio frequency power signal transmitted into the patient, the method comprising:
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transmitting a radio frequency power signal from an exterior antenna to a patient; receiving the radio frequency signal on an internal antenna within a patient; converting the radio frequency signal received by the internal antenna within the patient into electromotive power; within the patient, using only said electromotive power converted from said radio frequency signal with a patient voluntary movement monitoring system to generate a signal indicative of voluntary bodily movement of the patient; modulating a characteristic of the internal antenna in accordance with said voluntary patient movement signal to modulate a monitorable characteristic of the exteriorly transmitted radio frequency signal; monitoring the monitorable characteristic of the radio frequency signal exterior of the patient to recover the voluntary patient movement signal; and
,selecting patient muscle stimulation pulse train parameters based upon the voluntary patient movement signal recovered from said radio frequency signal exterior of the patient. - View Dependent Claims (5, 6, 7, 8, 9)
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Specification