Local application microprocessor based nerve and muscle stimulator

US 5,350,414 A
Filed: 10/22/1993
Issued: 09/27/1994
Est. Priority Date: 12/10/1991
Status: Expired due to Fees

First Claim

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1. An electrical stimulation device for applying a stimulation signal to living tissue, said electrical stimulation device comprising:

pulse generating means for generating the stimulation signal, wherein the stimulation signal is a pulse train including a frequency and an amplitude component; and

at least a pair of electrodes for contacting living tissue,wherein said pulse generating means includes a selector so that the pulse generating means is selectively operable to generate a carrier frequency of the pulse train in accordance with the size and placement of the electrodes such that the electrodes are impedance matched to the tissue.

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Abstract

A transcutaneous electroneural stimulation (TENS) device employing microprocessor control of carrier pulse frequency, modulation pulse frequency, intensity, and frequency/amplitude modulation factors has been developed. The microprocessor monitors battery status and keypad-entered commands that select the various TENS modalities, and generates the driver signals to produce the output waveform provided to a utilization device via a transformer arrangement. The microprocessor is programmed to calculate all stimulation parameters which are stored in nonvolatile memory to provide concise and predictable programmed functions which can be updated as required. By selecting a program, the system may be programmed to relieve pain or reduce edema in the application area. Thus, a variety of therapeutic applications may be realized. The output pulse train employs a unique pulse modulation scheme which matches the carrier frequency to the electrode-tissue load for location specific applications. By pulse modulating the high frequency carrier and matching the carrier frequency to the electrode-tissue load, a more efficient energy transfer is realized. This matching significantly reduces the required amplitude of the electrode voltage pulse and reduces the overall power requirements for the system. In addition to enhanced power efficiency, the unpleasant burning sensation associated with most TENS stimulation units is virtually eliminated. The unit can be integrated into a hermetically sealed miniaturized composite package which allows the unit to be worn in a non-interfering manner at the treatment location.

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23 Claims

1. An electrical stimulation device for applying a stimulation signal to living tissue, said electrical stimulation device comprising:
- pulse generating means for generating the stimulation signal, wherein the stimulation signal is a pulse train including a frequency and an amplitude component; and
  
  at least a pair of electrodes for contacting living tissue,wherein said pulse generating means includes a selector so that the pulse generating means is selectively operable to generate a carrier frequency of the pulse train in accordance with the size and placement of the electrodes such that the electrodes are impedance matched to the tissue.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The electrical stimulation device according to claim 1, said electrical stimulation device further comprising a transformer means for applying the stimulation signal to the electrodes and a driver means for driving the transformer means,wherein said transformer means becomes critically saturated by said driver means so that the pulses in the pulse train do not reach their peak voltage to prevent a DC component of the pulse train to be transferred to the tissue.
  - 3. The electrical stimulation device according to claim 2, wherein said driver means comprises two FET switching transistors, the at least a pair of electrodes comprises two electrodes, and said switching transistors apply the pulse train to said two electrodes.
  - 4. The electrical stimulation device according to claim 1, said electrical stimulation device further comprising controller means for controlling the parameters of the pulse train,wherein said controller means comprises:
    - first means for adjusting an amplitude parameter of the pulse train,second means for adjusting a frequency parameter of the pulse train,third means for adjusting a frequency dither parameter of the pulse train, andfourth means for adjusting an intensity dither parameter of the pulse train.
  - 5. The electrical stimulation device according to claim 1, wherein said pulse generating means is a microprocessor which generates a preprogrammed frequency and amplitude varied pulse train to the electrodes.
  - 6. The electrical stimulation device according to claim 5, said electrical stimulation device further comprising memory means for storing pre-selected parameters of a pulse train stimulation signal, said memory means is connected to the microprocessor and said microprocessor selectively retrieves the stored parameters from said memory means.
  - 7. The electrical stimulation device according to claim 1, said electrical stimulation device further comprising means for selectively adjusting an output voltage of the pulse train, said means for selectively adjusting an output voltage receives output signals from said pulse generating means which causes said means for selectively adjusting an output voltage receives to increase or decrease the output voltage in an incremental fashion.
  - 8. An electrical stimulation device for applying a stimulation signal to living tissue according to claim 7, wherein said means for selectively adjusting an output voltage is a potentiometer.
  - 9. The electrical stimulation device according to claim 1, said electrical stimulation device further comprising switch means for selectively applying a voltage to the electrodes, said switch means receiving a signal from said pulse generating means to cause said switch means to switch between the high or low voltage levels.
  - 10. The electrical stimulation device according to claim 1, wherein the at least a pair of electrodes comprises two electrodes that apply a bi-phasic pulse train to the tissue.
  - 11. The electrical stimulation device according to claim 1, said electrical stimulation device further comprising a battery and a low battery detect circuit means for indicating to said pulse generating means that said electrical stimulation device is at low battery power.
  - 12. An electrical stimulation device for applying a stimulation signal to living tissue according to claim 11, wherein said transformer means becomes critically saturated when the output voltage equals ninety percent of the maximum voltage.

13. An electrical stimulation device for applying a stimulation signal to living tissue, said electrical stimulation device comprising:
- pulse generating means for generating the stimulation signal, wherein the stimulation signal is a pulse train including a frequency and amplitude component; and
  
  a transformer means for applying the stimulation signal to at least a pair of electrodes and a driver means for driving said transformer means, the electrodes contacting the living tissue, wherein said transformer means becomes critically saturated by said driver means such that the pulses in the pulse train do not reach their peak voltage to prevent a DC component in the pulse train to be transferred to the tissue.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
- - 14. The electrical stimulation device according to claim 13, said electrical stimulation device further comprising controller means for controlling the parameters of the pulse train,wherein said controller means comprising:
    - first means for adjusting an amplitude parameter of the pulse train,second means for adjusting a frequency parameter of the pulse train,third means for adjusting a frequency dither parameter of the pulse train, andfourth means for adjusting an intensity dither parameter of the pulse train.
  - 15. The electrical stimulation device according to claim 13, wherein said pulse generating means is a microprocessor which generates a preprogrammed frequency and amplitude varied pulse train to the electrodes.
  - 16. The electrical stimulation device according to claim 15, said electrical stimulation device further comprising memory means for storing pre-selected parameters of a pulse train stimulation signal, said memory means is connected to said microprocessor and said microprocessor selectively retrieves the stored parameters from said memory means.
  - 17. The electrical stimulation device according to claim 13, said electrical stimulation device further comprising a means for selectively adjusting an output voltage of the pulse train, said means for selectively adjusting an output voltage receives output signals from said pulse generating means which causes means for selectively adjusting an output voltage receives to increase or decrease the output voltage in an incremental fashion.
  - 18. An electrical stimulation device for applying a stimulation signal to living tissue according to claim 17, wherein said means for selectively adjusting an output voltage is a potentiometer.
  - 19. The electrical stimulation device according to claim 13, said electrical stimulation device further comprising switch means for selectively applying a voltage to the electrodes, said switch means receiving a signal from said pulse generating means in order to cause the switch means to switch between the high and low voltage levels.
  - 20. The electrical stimulation device according to claim 13, wherein the at least a pair of electrodes comprises two electrodes that apply a bi-phasic pulse train to the tissue.
  - 21. The electrical stimulation device according to claim 13, said electrical stimulation device further comprising a battery and a low battery detect circuit means for indicating to said pulse generating means that electrical stimulation device is at low battery power.
  - 22. The electrical stimulation device according to claim 13, wherein said driver means comprises two FET switching transistors, the at least a pair of electrodes comprises two electrodes, and said switching transistors apply the pulse train to said two electrodes.
  - 23. An electrical stimulation device for applying a stimulation signal to living tissue according to claim 13, wherein said transformer means becomes critically saturated when the output voltage equals ninety percent of the maximum voltage.

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Current Assignee
Agency For Science Technology and Research (Government of Singapore)
Original Assignee
Agency For Science Technology and Research (Government of Singapore)
Inventors
Kolen, Paul T.
Primary Examiner(s)
Kamm, William E.

Application Number

US08/139,872
Time in Patent Office

340 Days
Field of Search

607/46, 607/59, 607/62, 607/63
US Class Current

607/62
CPC Class Codes

A61N 1/025 Digital circuitry features ...

A61N 1/36021 for treatment of pain

Local application microprocessor based nerve and muscle stimulator

First Claim

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Local application microprocessor based nerve and muscle stimulator

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Abstract

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