Functional neuromuscular stimulation system
First Claim
1. A functional neuromuscular stimulation system comprising:
- a relative position sensor for sensing a relative position of a joint of a patient'"'"'s body and generating electrical command signals which are proportional to the sensed joint position, the position sensor being implanted in the patient'"'"'s body;
an implanted telemetry system for conveying the command signals, the telemetry system including an encoding means which applies the command signals to a gate means which selectively applies a load across a power signal receiving antenna to modify a characteristic thereof, such that a monitorable characteristic of the power signal is modulated in accordance with the command signals;
a transmitter means for transmitting the power signals to the receiving antenna;
a parameter selecting means operatively connected with the transmitter means for selecting parameters of an electrical stimulation pulse train in accordance with the command signal modulated characteristic of the power signal;
a pulse train generator means for generating a train of stimulation pulses with the selected pulse train parameters; and
,at least a first electrode operatively connected with the pulse train generator.
1 Assignment
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Accused Products
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.
295 Citations
6 Claims
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1. A functional neuromuscular stimulation system comprising:
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a relative position sensor for sensing a relative position of a joint of a patient'"'"'s body and generating electrical command signals which are proportional to the sensed joint position, the position sensor being implanted in the patient'"'"'s body; an implanted telemetry system for conveying the command signals, the telemetry system including an encoding means which applies the command signals to a gate means which selectively applies a load across a power signal receiving antenna to modify a characteristic thereof, such that a monitorable characteristic of the power signal is modulated in accordance with the command signals; a transmitter means for transmitting the power signals to the receiving antenna; a parameter selecting means operatively connected with the transmitter means for selecting parameters of an electrical stimulation pulse train in accordance with the command signal modulated characteristic of the power signal; a pulse train generator means for generating a train of stimulation pulses with the selected pulse train parameters; and
,at least a first electrode operatively connected with the pulse train generator.
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2. A functional neuromuscular stimulation apparatus comprising:
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a parameter selecting means for selecting parameters of an electrical stimulation pulse train in accordance with input command signals, the parameter selecting means including a channel selecting means for selecting which of a plurality of implanted electrodes is to receive the pulse train, an amplitude means for selecting an amplitude of each stimulation pulse, an interval means for selecting an interpulse interval, and a pulse width means for selecting a width of each pulse; a transmitter for transmitting selected channel, amplitude, interpulse interval, and pulse width parameters received from the parameter selecting means in a carrier signal and wherein the pulse train generator includes; a power supply means for converting energy from the carrier signal into electrical potential for operating a pulse train generator and for providing electrical currents to the electrodes; a decoding means for decoding at least the encoded amplitude and pulse width from the encoded carrier signal, the decoding means including a channel decoder for decoding which electrodes are to apply each selected stimulus current pulse train, a pulse width decoder for determining the pulse width of pulses of the stimulus current pulse train, and an amplitude decoder for determining an amplitude of pulses of the stimulus pulse train; an energy storage means for storing electrical potential for each electrode channel; a channel selection means for selectively passing electrical current from the energy storage means to the electrode of the selected channel with the selected pulse width; a current regulator means for regulating the amplitude of the stimulus current pulses in accordance with the amplitude decoded by the amplitude decoding means. - View Dependent Claims (3, 4)
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5. A functional neuromuscular stimulation system comprising:
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an input command control means for providing an electrical command signal indicative of a selected muscular response, the input command control means including; a permanent magnet mounted within a ball member; at least three Hall-effect plates mounted in a socket in which a ball member is movably received such that as the ball member and socket move relative to each other, physical proximity of the magnet changes relative to the Hall-effect plates; a means for applying electrical potential across each of the Hall-effect plates in a first direction; a means for monitoring a potential difference across each Hall-effect plate in a direction generally transverse to the first direction, the potential difference monitoring means providing output signals which vary in proportion to the monitored potential differences, such that as the ball member and socket move relative to each other, the changes in the physical proximity of the magnet relative to the Hall-effect plates changes magnetic flux through each Hall-effect plate and the potential transversely thereacross; an encoding means for converting the output signals indicative of the relative position of the ball member and socket into the command signal; at least a first parameter selecting means for selecting properties of an electrical stimulation pulse train in accordance with the electrical command signals; a pulse train generator means for generating a train of stimulation pulses with the selected properties, the pulse train generator means being operatively connected with the first parameter selecting means; and
,at least a first electrode operatively connected with the pulse train generator. - View Dependent Claims (6)
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Specification