Low-intensity millimeter waves as a novel therapeutic modality

Author

Pakhomov, Andrei G. ; Murthy, P.R.

Author_Institution

Res. Lab., Brooks AFB, TX, USA

Volume

28

Issue

1

fYear

2000

fDate

2/1/2000 12:00:00 AM

Firstpage

34

Lastpage

40

Abstract

One of the most significant events in contemporary electromagnetic biology is a surge in interest to specific effects of low-intensity millimeter-band radiation (30-300 GHz). Bioeffects of millimeter waves (MMWs) can often occur without any considerable heating of the exposed subject, and biological responses are principally different from those caused by heating. The effects of MMWs often have a sharp, resonance-like dependence on the radiation frequency, but they depend relatively little on the radiation intensity. A brief, low-intensity MMW exposure can change cell growth and proliferation rates, activity of enzymes, state of cell genetic apparatus, function of excitable membranes and peripheral receptors; it can alleviate stress reactions, stimulate tissue repair and regeneration, etc. In Eastern Europe, low-intensity MMWs are widely employed for therapeutic purposes. The method has gained official recognition, and millions of people received MMW therapy for various conditions. While the mechanisms of MMW efficacy remain unclear and their medical usage is mostly empirical, the knowledge accumulated over more than 20 years of MMW therapy merits careful analysis and consideration

Keywords

biological effects of microwaves; diseases; millimetre waves; radiation therapy; 41.14 to 41.54 GHz; 41.690 to 41.700 GHz; 51.65 to 51.85 GHz; Escherichia coli; Nitellopsis obtusa; Saccharomyces cerevisiae; acupuncture points; acute viral hepatitis; alcoholism; angina pectoris; asthenia; asthma; atopic dermatitis; bioeffects; biological responses; biologically-active points; bronchitis; burns; cancer patients; cardiovascular diseases; cell genetic apparatus; cell growth; cell proliferation rates; chemotherapy; diabetes mellitus; disease; diseased organ; double-blind protocol; duodenal ulcers; electromagnetic biology; enzyme activity; excitable membranes; exposure regimen; exposure schedule; frog sciatic nerve; gastric ulcers; giant algae; glomerulonephritis; hypertension; infarction; ischemic heart disease; large joints; low-intensity millimeter waves; low-intensity millimeter-band radiation; medical usage; microwave resonance therapy; millimetre wave therapy; monotherapy; neuralgia; osteochondrosis; patient; peripheral receptors; placebo control; rabbits; radiation frequency; radiation intensity; rats; resonance-like dependence; respiratory sicknesses; sarcoidosis; side effects alleviation; skin diseases; skin projection; sternum; stress reactions; tender zones; therapeutic modality; tissue regeneration; tissue repair; toxic effects; trophic ulcers; tuberculosis; wounds; xiphoid process; yeast; Biochemistry; Biomembranes; Electromagnetic radiation; Frequency; Genetics; Heating; Medical treatment; Millimeter wave technology; Resonance; Surges;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/27.842821

Filename

842821