Experiments on effects of an intermittent 16.7-Hz magnetic field on salivary melatonin concentrations, rectal temperature, and heart rate in humans

The present experiments concerned the hypothesis that an intermittent, strong and extremely low frequency magnetic field reduces salivary melatonin levels and delays consecutively the nadirs of rectal temperature and heart rate. Twelve healthy young men (18-25 years) participated in three randomly p...

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Bibliographic Details
Published in:International archives of occupational and environmental health 2002-03, Vol.75 (3), p.171-178
Main Authors: GRIEFAHN, Barbara, KÜNEMUND, Christa, BLASZKEWICZ, Meinolf, GOLKA, Klaus, DEGEN, Gisela
Format: Article
Language:English
Subjects:
Adult
Biological and medical sciences
Body Temperature
Circadian Rhythm
Data Collection
Effects of various physical factors on living matter (vibrations, electric field, ultrasound, sound...)
Environmental Exposure - adverse effects
Fundamental and applied biological sciences. Psychology
Heart Rate
Humans
Light - adverse effects
Magnetics - adverse effects
Male
Melatonin - analysis
Melatonin - biosynthesis
Occupational Exposure - adverse effects
Rectum
Saliva - chemistry
Tissues, organs and organisms biophysics
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Summary:The present experiments concerned the hypothesis that an intermittent, strong and extremely low frequency magnetic field reduces salivary melatonin levels and delays consecutively the nadirs of rectal temperature and heart rate. Twelve healthy young men (18-25 years) participated in three randomly permuted sessions, which were performed as constant routines. The participants kept a strict bed rest over 26 h, air temperature was 20 degrees C, illumination < 30 lx, and sound level < 50 dBA. Salivary melatonin levels were determined hourly, rectal temperature and heart rate were registered continuously throughout. An intermittent magnetic field was administered in one session from 6 p.m. to 2 a.m. at 16.7 Hz, 0.2 mT and alternating on/off-periods of 15 s. This situation was compared with a control session without any additional stress. Another session was performed to determine the participants' ability to respond to a well-known melatonin-suppressing stress, namely bright light (1,500 lx, 10 p.m.-2 a.m.). Bright light inhibited melatonin synthesis in all 12 participants and delayed the nadirs of rectal temperature and heart rate. The only significant alteration that was associated with exposure to the magnetic field was a delay in the heart rate nadir, which was not mediated by an accordingly altered melatonin profile. The fact that the circadian rhythm of only the heart rate was altered indicates an internal dissociation which might constitute a health risk in the long run and needs to be investigated more extensively.
ISSN:0340-0131
1432-1246
DOI:10.1007/s00420-001-0292-2