Zwitserland: Invloed gepulste RF EMV op hersenfysiologie.

maandag, 30 juli 2012 - Categorie: Onderzoeken

Bron: Journal of Sleep Research. 2012 Jun 22. doi: 10.1111/j.1365-2869.2012.01025.x.

Sleep EEG alterations: effects of pulsed magnetic fields versus pulse-modulated radio frequency electromagnetic fields.

Schmid MR, Murbach M, Lustenberger C, Maire M, Kuster N, Achermann P, Loughran SP.

Institute of Pharmacology and Toxicology, University of Zurich, Zurich,
Switzerland Neuroscience Center Zurich, University and ETH Zurich, Zurich, Switzerland IT'IS Foundation, Zurich, Switzerland
Swiss Federal Institute of Technology (ETH), Zurich,
Switzerland University Children's Hospital Zurich, Zurich, Switzerland
Zurich Center for Integrative Human Physiology, University of Zurich, Zurich, Switzerland.


Studies have repeatedly shown that electroencephalographic power during sleep is enhanced in the spindle frequency range following radio frequency electromagnetic field exposures pulse-modulated with fundamental frequency components of 2, 8, 14 or 217 Hz and combinations of these. However, signals used in previous studies also had significant harmonic components above 20 Hz.

The current study aimed: (i) to determine if modulation components above 20 Hz, in combination with radio frequency, are necessary to alter the electroencephalogram; and (ii) to test the demodulation hypothesis, if the same effects occur after magnetic field exposure with the same pulse sequence used in the pulse-modulated radio frequency exposure.

In a randomized double-blind crossover design, 25 young healthy men were exposed at weekly intervals to three different conditions for 30 min before sleep. Cognitive tasks were also performed during exposure. The conditions were a 2-Hz pulse-modulated radio frequency field, a 2-Hz pulsed magnetic field, and sham. Radio frequency exposure increased electroencephalogram power in the spindle frequency range. Furthermore, delta and theta activity (non-rapid eye movement sleep), and alpha and delta activity (rapid eye movement sleep) were affected following both exposure conditions. No effect on sleep architecture and no clear impact of exposure on cognition was observed.

These results demonstrate that both pulse-modulated radio frequency and pulsed magnetic fields affect brain physiology, and the presence of significant frequency components above 20 Hz are not fundamental for these effects to occur. Because responses were not identical for all exposures, the study does not support the hypothesis that effects of radio frequency exposure are based on demodulation of the signal only.

Voor het originele abstract zie: .

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