1. Evaluation of oxidative stress and genetic instability among residents near mobile phone base stations in Germany.
- Author
-
Gulati, Sachin, Mosgoeller, Wilhelm, Moldan, Dietrich, Kosik, Pavol, Durdik, Matus, Jakl, Lukas, Skorvaga, Milan, Markova, Eva, Kochanova, Dominika, Vigasova, Katarina, and Belyaev, Igor
- Subjects
DOUBLE-strand DNA breaks ,CHROMOSOME abnormalities ,CELL phones ,GENE rearrangement ,NONIONIZING radiation ,OXIDATIVE stress - Abstract
Human exposure to radiofrequency electromagnetic fields (RF-EMF) is restricted to prevent thermal effects in the tissue. However, at very low intensity exposure "non-thermal" biological effects, like oxidative stress, DNA or chromosomal aberrations, etc. collectively termed genomic-instability can occur after few hours. Little is known about chronic (years long) exposure with non-thermal RF-EMF. We identified two neighboring housing estates in a rural region with residents exposed to either relatively low (control-group) or relatively high (exposed-group) RF-EMF emitted from nearby mobile phone base stations (MPBS). 24 healthy adults that lived in their homes at least for 5 years volunteered. The homes were surveyed for common types of EMF, blood samples were tested for oxidative status, transient DNA alterations, permanent chromosomal damage, and specific cancer related genetic markers, like MLL gene rearrangements. We documented possible confounders, like age, sex, nutrition, life-exposure to ionizing radiation (X-rays), occupational exposures, etc. The groups matched well, age, sex, lifestyle and occupational risk factors were similar. The years long exposure had no measurable effect on MLL gene rearrangements and c-Abl-gene transcription modification. Associated with higher exposure, we found higher levels of lipid oxidation and oxidative DNA-lesions, though not statistically significant. DNA double strand breaks, micronuclei, ring chromosomes, and acentric chromosomes were not significantly different between the groups. Chromosomal aberrations like dicentric chromosomes (p=0.007), chromatid gaps (p=0.019), chromosomal fragments (p<0.001) and the total of chromosomal aberrations (p<0.001) were significantly higher in the exposed group. No potential confounder interfered with these findings. Increased rates of chromosomal aberrations as linked to excess exposure with ionizing radiation may also occur with non-ionizing radiation exposure. Biological endpoints can be informative for designing exposure limitation strategies. Further research is warranted to investigate the dose-effect-relationship between both, exposure intensity and exposure time, to account for endpoint accumulations after years of exposure. As established for ionizing radiation, chromosomal aberrations could contribute to the definition of protection thresholds, as their rate reflects exposure intensity and exposure time. [Display omitted] • Residents exposed to RF-EMR from base stations were tested for genetic instability. • The years long exposure had no measurable effect on specific cancer related genes. • We found high level of lipid peroxidation and DNA-lesions but not significant. • Chromosomal aberrations were significantly more pronounced in highly exposed group. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF