Effect of 900-, 1800-, and 2100-MHz radiofrequency radiation on DNA and oxidative stress in brain.
zaterdag, 02 mei 2020 - Categorie: Onderzoeken
Electromagn Biol Med. 2019;38(1):32-47. doi: 10.1080/15368378.2019.1567526. Epub 2019 Jan 22
Alkis ME 1, Bilgin HM 2, Akpolat V 3, Dasdag S 4, Yegin K 5, Yavas MC 6, Akdag MZ 3.
1a Department of Electronics , Engineering and Architecture Faculty of Mus Alparslan University , Mus , Turkey.
2b Department of Physiology , Medical School of Dicle University , Diyarbakir , Turkey.
3c Department of Biophysics , Medical School of Dicle University , Diyarbakir , Turkey.
4d Department of Biophysics , Medical School of Istanbul Medeniyet University , Istanbul , Turkey.
5e Department of Electrical and Electronics Engineering , Ege University , Izmir , Turkey.
6f Department of Biophysics , Medical School of Ahi Evran University , Kirsehir , Turkey.
Ubiquitous and ever increasing use of mobile phones led to the growing concern about the effects of radiofrequency radiation (RFR) emitted by cell phones on biological systems. The aim of this study is to explore whether long-term RFR exposure at different frequencies affects DNA damage and oxidant-antioxidant parameters in the blood and brain tissue of rats. 28 male Sprague Dawley rats were randomly divided into four equal groups (n = 7). They were identified as Group 1: sham-control, Group 2: 900 MHz, Group 3: 1800 MHz, and Group 4: 2100 MHz. Experimental groups of rats were exposed to RFR 2 h/day for 6 months. The sham-control group of rats was subjected to the same experimental condition but generator was turned off. Specific absorption rates (SARs) at brain with 1 g average were calculated as 0.0845 W/kg, 0.04563 W/kg, and 0.03957, at 900 MHz, 1800 MHz, and 2100 MHz, respectively. Additionally, malondialdehyde (MDA), 8-hydroxydeoxyguanosine (8-OHdG), total antioxidant status (TAS), and total oxidant status (TOS) analyses were conducted in the brain tissue samples. Results of the study showed that DNA damage and oxidative stress indicators were found higher in the RFR exposure groups than in the sham-control group. In conclusion, 900-, 1800-, and 2100-MHz RFR emitted from mobile phones may cause oxidative damage, induce increase in lipid peroxidation, and increase oxidative DNA damage formation in the frontal lobe of the rat brain tissues. Furthermore, 2100-MHz RFR may cause formation of DNA single-strand breaks.
900-, 1800-, and 2100-MHz RFR; DNA damage; comet assay; mobile phone; nitric oxide; oxidative stress
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