Exposure of magnetic bacteria to simulated mobile phone-type RF radiation has no impact on mortality

IEEE Transactions on Nanobioscience
Charles G CranfieldJon Dobson

Abstract

The interaction of mobile phone RF emissions with biogenic magnetite in the human brain has been proposed as a potential mechanism for mobile phone bioeffects. This is of particular interest in light of the discovery of magnetite in human brain tissue. Previous experiments using magnetite-containing bacteria exposed directly to emissions from a mobile phone have indicated that these emissions might be causing greater levels of cell death in these bacterial populations when compared to sham exposures. A repeat of these experiments examining only the radio frequency (RF) global system for mobile communication (GSM) component of the mobile phone signal in a well-defined waveguide system (REFLEX), shows no significant change in cell mortality compared to sham exposures. A nonmagnetite containing bacterial cell strain (CC-26) with similar genotype and phenotype to the magnetotactic bacteria was used as a control. These also showed no significant change in cell mortality between RF and sham exposed samples. Results indicate that the RF components of mobile phone exposure do not appear to be responsible for previous findings indicating cell mortality as a result of direct mobile phone exposure. A further mobile phone emission componen...Continue Reading

References

Oct 24, 1975·Science·R Blakemore
Aug 15, 1992·Proceedings of the National Academy of Sciences of the United States of America·J L KirschvinkB J Woodford
Jan 1, 1995·Brain Research Bulletin·J R DunnB M Moskowitz
Jan 8, 1999·Biochimica Et Biophysica Acta·P P Schultheiss-GrassiJ Dobson
Jun 6, 2000·Nature·D de PomeraiP Candido
Dec 16, 2000·Lancet·G J Hyland

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Citations

Apr 2, 2005·Proceedings. Biological Sciences·Charles G CranfieldJon Dobson
Mar 11, 2009·Bioelectromagnetics·Oscar Céspedes, Shoogo Ueno
Jun 3, 2005·Bioelectromagnetics·L J Challis

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