Cellular Phone:
 Swiss Cell Phone Experiment

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Posted:
19 October 2000

........From EMF-L.......

Chris Reuss (Switzerland) sends the following.....  I also have the report on the experiment itself.  I will be adding that to the website, filed under "Research"........guru.......

http://www.unizh.ch/phar/sleep/handy/pressrelease.htm
--

Roy Beavers (EMFguru)
roy@emfguru.com

It is better to light a single candle than to curse the darkness.....

People are more important than profit$$


 

Press release

NeuroReport

Exposure to pulsed high-frequency electromagnetic field during waking affects human sleep EEG

Reto Huber, Thomas Graf, Kimberly A. Cote, Lutz Wittmann, Eva Gallmann, Daniel Matter, Jürgen Schuderer, Niels Kuster, Alexander A. Borbély and Peter Achermann

Contact: Dr Peter Achermann, Institute of Pharmacology and Toxicology, University of Zürich, Winterthurerstrasse 190, CH-8057 Zürich, Switzerland

E-mail: acherman@pharma.unizh.ch

Related information: http://www.unizh.ch/phar/sleep/handy/

NeuroReport Volume 11, number 15, 3321-3325

The aim of the study was to investigate whether the electromagnetic field emitted by digital radiotelephone handsets affects brain physiology. The main effect was the enhancement of the intensity of certain frequencies of the brainís electrical signals (i.e. electroencephalogram, EEG) in the first 30 minutes of non-REM sleep.

The extensive use of mobile phones has given rise to public debate about possible adverse effects on human health. A recent report of the Independent Expert Group on Mobile Phones established by the British government summarized the relevant studies on the biological effects of electromagnetic fields (EMF). They proposed that a precautionary approach be adopted until more robust scientific information becomes available. In a previous study, the authors demonstrated that exposure to EMF during sleep reduced waking after sleep onset and affected the EEG in non-rapid eye movement (non-REM) sleep.

In this present study, the authors investigated the effect of exposure to pulsed high-frequency EMF during waking on subsequent sleep. Fields similar to those emitted by mobile communications equipment of GSM type (global system for mobile communication) were applied. To simulate the real-life exposure conditions, the subjects were exposed on either side of the head. The EMF was directed to either the right or left side of the head for 30 min. The subsequent sleep episode was analyzed. As in a previous study, in which mechanical stimulation of the right hand had been shown to induce unilateral changes in the sleep EEG, the authors anticipated hemispheric differences.

Exposure to EMF affected neither the sleep stages, nor were significant effects of EMF exposure observed for subjective assessment of waking after sleep onset, sleep latency, and sleep quality.

The main effect of EMF exposure was the enhancement of the intensity of the brainís electrical signals (EEG power density) in the frequency range of 9.750 - 11.25 Hz and in the 12.25 - 13.25 Hz in the first 30 minutes of non-REM sleep. This effect was also present when the left and right exposure were analyzed separately. The two sides of the brain were similarly affected after left and right exposure. A comparison within individuals showed that the spectral spindle peak frequency in the 10 - 15 Hz range was not shifted by left and right exposure. The REM sleep spectrum was not significantly affected.

In this study the authors have shown for the first time that exposure to EMF during waking affects the EEG during subsequent sleep. In the authorsí previous study, the EMF was directed towards the top of the head to expose both sides of the brain. In the present experiment, the field was aimed at one side or the other. Contrary to the authorsí expectation, the change in the brainís electrical signal intensity was similar for both sides of the head.

The present results lend support to previous reports on effects of EMF on physiological and psychological variables. These include sleep and cognitive function as well as blood pressure and heart rate. However, the present study is unique in having confirmed previous results of an experiment performed under similar conditions on the effect on sleep. The other findings still need to be replicated or could not be reproduced.

This study demonstrates that a short exposure to an electromagnetic field similar to those emitted by mobile phones has an effect on brain physiology. Conclusions about possible adverse effects on human health are premature because the underlying mechanisms are unknown. Further studies are needed to determine the time course of the changes, to specify field strength - response relationships, and to define the critical field parameters (e.g. modulation, frequency).

 This paper and accompanying In Focus article by a journal editor is for a short period freely available on-line on this site.

To obtain a faxed pre-publication copy of this paper please contact:

Dr Phil J. Daly or Mr Ian Burgess

NeuroReport Editorial Office

Tel: +44-(0)20-7940-7500 (switchboard), -7521 (PJD), or Ė7518 (IB)

Fax: +44-(0)20-7940-7515

E-mail: pdaly@lww.co.uk

Lippincott Williams & Wilkins, Inc., is a leading international publisher of professional health information for physicians, nurses, specialised clinicians and students. LWW provides essential information for healthcare professionals in print and electronic formats, including textbooks, journals, CD-ROM, and via Intranets and the Internet. LWW is a unit of Wolters Kluwer International Health & Science, a Philadelphia-based group of leading publishing companies offering specialised publications and software in medicine, nursing, pharmacy, science, and related areas. WKIHS also includes Ovid Technologies, Inc., New York; Facts and Comparisons, St. Louis; Kluwer Academic Publishers, The Netherlands; and Adis International, Auckland, NZ.

http://www.unizh.ch/phar/sleep/handy/
 


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