Comparing DNA damage induced by mobile telephony and other types of man-made electromagnetic fields
donderdag, 11 april 2019 - Categorie: Onderzoeken
Bron: www.sciencedirect.com/science/article/pii/S1383574218300991?via%3Dihub
Dimitris J.Panagopoulos abc
a National Center for Scientific Research ''Demokritos'', Athens, Greece
b Choremeion Research Laboratory, Medical School, National and Kapodistrian, University of Athens, Greece
c Radiation and Environmental Biophysics Research Laboratory, Athens, Greece
Received 30 October 2018, Revised 4 February 2019, Accepted 9 March 2019, Available online 11 March 2019.
Abstract
The number of studies showing adverse effects on living organisms induced by different types of man-made Electromagnetic Fields (EMFs) has increased tremendously. Hundreds of peer reviewed published studies show a variety of effects, the most important being DNA damage which is linked to cancer, neurodegenerative diseases, reproductive declines etc. Those studies that are far more effective in showing effects employ real-life Mobile Telephony (MT) exposures emitted by commercially available mobile phones. The present review - of results published by my group from 2006 until 2016 - compares DNA fragmentation induced by six different EMFs on the same biological system - the oogenesis of Drosophila melanogaster - under identical conditions and procedures. Such a direct comparison between different EMFs - especially those employed in daily life - on the same biological endpoint, is very useful for drawing conclusions on their bioactivity, and novel. It shows that real MT EMFs are far more damaging than 50 Hz alternating magnetic field (MF) - similar or much stronger to those of power lines - or a pulsed electric field (PEF) found before to increase fertility. The MT EMFs were significantly more bioactive even for much shorter exposure durations than the other EMFs. Moreover, they were more damaging than previously tested cytotoxic agents like certain chemicals, starvation, dehydration. Individual parameters of the real MT EMFs like intensity, frequency, exposure duration, polarization, pulsing, modulation, are discussed in terms of their role in bioactivity. The crucial parameter for the intense bioactivity seems to be the extreme variability of the polarized MT signals, mainly due to the large unpredictable intensity changes.
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