Sage Journals: Discover world-class research

Abstract

Electrotherapy is a treatment method in which an electric stimulus is used to achieve physiological changes in the body. When increasing the level of the electric stimulus, three sensory, three motor and a pain response can be found. In this paper the three sensory threshold levels (1^st just noticeable weak tingling sensation, 2^nd a very fine but definite tingling and 3^rd moderate strong tingling) were studied with an interferential electric current stimulus. The interferential electric current can be achieved by summing two alternating currents with little different frequencies with each other. As a current source, the study used a value intended for interferential electric current therapy. The threshold value measurements were performed on 5 days to 6 volunteers. The method of limits is a frequently used technique for determining sensory thresholds where ascending or descending stimuli is used and the observer reports of the appearance or disappearance of the sensation, respectively. A Bekesy’s algorithm is a threshold tracking method with a variable stimulus. They were used for controlling the interferential electric current stimulus, and hence, for studying the thresholds. By using the method of limits, the measurements were done at three sensory threshold levels at interferential frequencies ▵f of 10 Hz, 30 Hz, 50 Hz, and 100 Hz caused by two sine waves, one with a frequency between 2490 Hz and 2400 Hz, and the other constant 2500 Hz. In the method based on Bekésy’s algorithm the interferential frequency ▵f was increased from 1 Hz to 100 Hz by changing the first frequency from 2499 Hz to 2400 Hz and the measurement was repeated for all three sensory thresholds. The sensory thresholds for interferential current stimuli seem to be quite unaffected by the interferential electric current frequency among the healthy test persons, and no distinct interferential electric current frequencies at which the threshold values should be measured were found in this study.

Keywords

The Method of Limits Bekésy’s Algorithm A Bipolar Interferential Electric Current Stimulation Sensory Threshold Tingling Threshold

Get full access to this article

View all access options for this article.

References

Omura

, Editoral: Some historical aspects of acupuncture and important problems to be considered in acupuncture and electro-therapeutics research. Acupuncture & Electro-Therapeutics Research, The International Journal. Vol. 1, pp. 3-44,1975.

Omura

, Electrical parameters for safe and effective electro-acupuncture and transcutaneous electrical stimulation: threshold potentials for tingling, muscle contraction and pain; and how to prevent adverse effects of electro-therapy – Part 1. Acupuncture & Electro-Therapeutics Research, The International Journal. Vol. 10, pp. 335-337,1985.

Omura

, Editoral: Critical evaluation of the methods of measurement of “Tingling Threshold”, “Pain Threshold”, and “Pain Tolerance” by electrical stimulation. Acupuncture & Electro-Therapeutics Research. The International Journal. Vol. 2, No. 3&4, pp. 161-236, 1977.

Low

Reed

. Electrotherapy explained, principles and practice , 2nd edition. Butterworth-Heinemann Ltd., Oxford, 1994.

De Domenico

. New dimensions in interferential therapy, a theoretical & clinical guide, Reid Medical Books, Lindfield, Australia, 1987.

Ihme

Vesikukka

. The frequency analysis method, PCT-patent pending of Innokas Medical Ltd, Finland, 2000.

Alasaarela

Hannula

Pienimäki

Lehtelä

M-L

Vesikukka

Pajula

Laitinen

. A frequency selective threshold analysis method using electrical stimulation of human body. Manuscript to Acupuncture & Electro-Therapeutics Research, The International Journal . Submitted December 2003.

Gescheider

. Psychophysics, method, theory, and application. 2nd edition. Lawrence Erlbaum Associates, Inc., Publishers, Hillsdale, New Jersey, USA, 1985.

Gruener

Dyck

. Qantitative sensory testing: methodology, applications, and future directions. Journal of Clinical Neurophysiology . Vol. 11, pp. 568-583, 1994.

10.

Lundborg

Sollerman

Strömberg

Pyykkö

Rosén

. A new principle for assessing vibrotactile sense in vibration-induced neuropathy. Scandinavian Journal of Work, Environment & Health , Vol. 13, pp. 375-379.1987.

11.

Grimnes

Martinsen

ØG

. Bioimpedance and bioelectricity basics. Academic Press, San Diego (CA), 2000.

12.

Innokas Medical Ltd . PTC 3100 Interferential, user’s manual. Kempele, Finland, 1998.

13.

Hansjürgens

. Dynamic interferential current therapy. Special Reprint from Physikalische Medizin und Rehabilitation. Vol. 15, pp. 24-28, 1974.

14.

Lundeberg

Lund

Dahlin

Borg

Gustafsson

Sand

Rosén

Kowalski

Eriksson

. Reliability and responsiveness of three different pain assessments. Journal of Rehabilitation Medicine . Vol. 33, pp. 279-283,2001.

15.

Dyck

Kames

Gillen

O’Brien

Zimmerman

Johnson

. Comparison of algorithms of testing for use in automated evaluation of sensation. Neurology , Vol. 40, pp. 1607-1613,1990.

16.

Goldberg

Lindblom

. Standardized method of determining vibratory perception thresholds for diagnosis and screening in neurological investigation. Journal of Neurology, Neurosurgery, and Psychiatry . Vol. 42, pp. 793-803,1979.

17.

Lowery

Stoykov

Taflove

Kuiken

. A multiple-layer finite-element model of the surface EMG-signal. IEEE Transactions on Biomedical Engineering . Vol. 49, pp. 446-454,2002.

18.

Kandel

Schwartz

. Principles of neural science. 2nd edition, Elsevier, New York. pp. 285-300,1985.

19.

Martin

Palmer

The effect of beat frequency on perceived comfort during stimulation of healthy subjects with interferential current. Physiotherapy . Vol. 82, pp. 639, 1996.

20.

Ward

Robertson

. Sensory, motor and pain thresholds for stimulation with medium frequency alternating current. Archives of Physical Medicine and Rehabilitation. Vol. 79, pp. 273-278,1998.

21.

Palmer

Martin

Steedman

Ravey

. Alteration of interferential current and transcutaneous electrical nerve stimulation frequency: effects of nerve excitation. Archives of Physical Medicine and Rehabilitation . Vol. 80. pp. 1065-1071, 1999.

Registering the Response of Tissues Exposed to an Interferential Electric Current Stimulation

Abstract

Keywords

Get full access to this article

References