Can EMF Exposure During Development Leave an Imprint Later in Life?
- 1 January 2006
- journal article
- research article
- Published by Taylor & Francis Ltd in Electromagnetic Biology and Medicine
- Vol. 25 (4), 217-225
- https://doi.org/10.1080/15368370601034086
Abstract
People in industrialized nations live in an environment of ubiquitous electromagnetic field (EMF) exposure, both natural and anthropogenic. The intensity, variety, and geographic distribution of anthropogenic EMF exposures have grown dramatically since the mid 20th century, with many uses serving, and in close proximity to, human populations, such as electric power distribution, radio and television transmission, and more recently, personal cell phone communication units and transmitting towers. Thus, it is reasonable to ask if this EMF exposure could cause alterations in the physiology of developing organisms, since they are generally assumed to be the most sensitive to chemical stressors. In this report, we review work published beginning in the late 1980s. Initial reports indicated that exposure of chicken eggs during embryonic development to power-line electric fields of 50 and 60Hz, at 10V/m in air (which is frequently in locations inhabited by humans), could cause the brain tissues of the hatched chickens to respond differently in a particular test. More recently, an anecdotal report of human sensitivity to EMF has appeared that shows a health-related influence of prior exposure history to particular powerline frequencies in chemically sensitized individuals. These reports open the question of whether the ambient electromagnetic environment can leave an imprint on developing organisms and if such imprint changes have the potential for health consequences.Keywords
This publication has 10 references indexed in Scilit:
- ABERRANT DNA METHYLATION AS A CANCER-INDUCING MECHANISMAnnual Review of Pharmacology and Toxicology, 2005
- Epigenetic differences arise during the lifetime of monozygotic twinsProceedings of the National Academy of Sciences of the United States of America, 2005
- An integrated epigenetic and genetic approach to common human diseaseTrends in Genetics, 2004
- Methylation meets genomics.Nature Genetics, 2001
- Weak ELF Magnetic Field Effects on Hippocampal Rhythmic Slow ActivityExperimental Neurology, 1998
- Effect of ambient levels of power‐line‐frequency electric fields on a developing vertebrateBioelectromagnetics, 1988
- Influence of electromagnetic fields on the efflux of calcium ions from brain tissue in vitro: A three‐model analysis consistent with the frequency response up to 510 HzBioelectromagnetics, 1988
- Specific absorption rate in electrically coupled biological samples between metal platesBioelectromagnetics, 1986
- Effects of ELF (1–120 Hz) and modulated (50 Hz) RF fields on the efflux of calcium ions from brain tissue in vitroBioelectromagnetics, 1985
- Induction of calcium‐ion efflux from brain tissue by radio‐frequency radiation: Effects of modulation frequency and field strengthRadio Science, 1979