Measurement of Base Transceiver Station Exposure in the Extra-Village Environment- A Pilot Study

1. Belyaev I., Dean A., Eger H., Hubmann G., Jandrisovits R., Kern M., Kundi M., Moshammer H., Lercher P., Müller K., Oberfeld G., Ohnsorge P., Pelzmann P., Scheingraber C., Thill R. EUROPA-EM EMF Guideline 2016 for the prevention, diagnosis and treatment of EMF-related health problems and illnesses. Rev Environ Health 2016; 31(3): 363–397.10.1515/reveh-2016-001127454111 Search in Google Scholar

2. Koricarova S. Measurements of exposure levels of mobile providers base stations. Bachelor thesis. [In Slovak] Zilina: s.n.; 2014. p.31 Search in Google Scholar

3. Akinyemi L.A., Makanjuola N. T, Shoewu O., Edeko F.O. Comparative Analysis of Base Trans ceiver Station (BTS) and Power Transmission Lines Effects on The Human Body in the Lagos Environs. African Journal of Computing & ICT 2014; 7(2): 33-42. Search in Google Scholar

4. Koppel T., Ahonen M., Carlberg M., Hardell L. Very high radiofrequency radiation at Skeppsbron in Stockholm, Sweden from mobile phone base station antennas positioned close to pedestrians’ heads. Environ Res 2022; 208(112627): 1-8.10.1016/j.envres.2021.11262734995546 Search in Google Scholar

5. Koppel T., Ahonen M., Carlberg M., Hedendahl L.K., L. Hardell. Radiofrequency radiation from nearby mobile phone base stations-a case comparison of one low and one high exposure apartment. Oncology Letters 2019; 18:5383-5391.10.3892/ol.2019.10899678151331612047 Search in Google Scholar

6. Khurana V.G., Hardell L., Everaert J., Bortkiewicz A., Carlberg M., Ahonen M. Epidemiological evidence for a health risk from mobile phone base stations. Int. J. Occup. Environ Health 2010; 16(2010): 263-267. Search in Google Scholar

7. Misek, J., Belyaev, I., Jakusova, V., Tonhajzerova, I., Barabas, J., Jakus, J. Heart rate variability affected by radio frequency electro-magnetic field in adolescent students. Bioelectromagnetics 2018; 39(4): 277-288.10.1002/bem.2211529469164 Search in Google Scholar

8. Misek J., Veternik M., Tonhajzerova I., Jakusova V., Janoušek L., Jakus J. Radiofrequency electromagnetic field affects heart rate variability in rabbits. Physiol Res 2020; 69(4): 633-643.10.33549/physiolres.934425854989632672045 Search in Google Scholar

9. Parizek D., Sladicekova K., Tonhajzerova I., Veternik M., Jakus J. The Effect of Music on Heart Rate Variability (Review). Acta Medica Martiniana 2021, 21(1): 1-8.10.2478/acm-2021-0001 Search in Google Scholar

10. Kopani M., Filova B., Sevcik P., Kosnac D., Misek J., Polak S., Kohan M., Major J., Zdimalova M., Jakus J. Iron deposition in rabbit cerebellum after exposure to generated and mobile GSM electromagnetic fields. Bratisl Med J, 2017; 118(10): 575-579.10.4149/BLL_2017_11029198122 Search in Google Scholar

11. Sladicekova K., Bereta M., Misek J., Parizek D., Jakus J. Biological effects of a low-frequency electromagnetic field on yeast cells of the genus Saccharomyces Cerevisiae. Acta Medica Martiniana, 2021, 21(2): 34-41.10.2478/acm-2021-0006 Search in Google Scholar

12. Barabas J., Radil R., Malikova I. Modification of S. cerevisiae growth dynamics using low frequency electromagnetic fields in the 1-2 kHz range. Biomed Res Int 2015; 2015: 1-5,10.1155/2015/694713453116226290871 Search in Google Scholar

13. Radil R., Barabas J., Janousek L., Bereta M. Frequency Dependent Alterations of S. Cerevisiae Proliferation Due to LF EMF Exposure. Advances in Electrical and Electronic Engineering 2020; 18(2), 99 – 106.10.15598/aeee.v18i2.3461 Search in Google Scholar

14. Barabas J., Radil R. Evidence of S. Cerevisiae Proliferation Rate Control via Exogenous Low Frequency Electromagnetic Fields. In: Information Technologies in Biomedicine. Itib 2012, 7339: 295-303. Springer, Berlin, Heidelberg.10.1007/978-3-642-31196-3_29 Search in Google Scholar

15. Misek J., Laukova T., Kohan M., Veternik M., Jakusova V., Jakus J. Measurement of Low-level radiofrequency electromagnetic fields in the human environment. Acta Medica Martiniana 2018; 18(2): 27-33.10.2478/acm-2018-0010 Search in Google Scholar

16. ICNIRP. Guidelines for limiting exposure to time varying electric, magnetic, and electromagnetic fields (up to 300 GHz). Health Physics 1998; 74(4): 494–522. Search in Google Scholar

17. BioInitiative Working Group: BioInitiative 2012. A Rationale for a Biologically based Public Exposure Standard for Electromagnetic Fields (ELF and RF). In: Sage C and Carpenter DO, ed. Bioinitiative, 2012. Available online: https://www.bioinitiative.org. [Last Accessed: February 1, 2022]. Search in Google Scholar

18. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Volume 102. Non-Ionizing Radiation, Part 2: Radiofrequency Electromagnetic Fields. International Agency for Research on Cancer: Lyon, France, 2013. Search in Google Scholar

19. Sogut O., Eyicil M. Measurement of Electromagnetic Pollution Level and Calculation of Radiation Dose Index throughout Malatya Street in Elbistan District of Kahramanmaraş. Journal of Science and Technology 2021; 14(1), 204-214. Search in Google Scholar

20. Hardell L., Carlberg M., Koppel T, Hedendahl L. High radiofrequency radiation at Stockholm Old Town: An exposimeter study including the Royal Castle, Supreme Court, three major squares and the Swedish Parliament. Mol Clin Oncol 2017; 6(4): 462–476.10.3892/mco.2017.1180537493328413651 Search in Google Scholar

21. Aerts S., Deschrijver D., Verloock L., Dhaene T., Martens L., Joseph W. Assessment of outdoor radiofrequency electromagnetic field exposure through hotspot localization using kriging-based sequential sampling. Environ Res 2013; 126(2013):184-191.10.1016/j.envres.2013.05.00523759207 Search in Google Scholar

22. Urbinello D., Joseph W., Verloock L., Martens L., Röösli M. Temporal trends of radio-frequency electromagnetic field (RF-EMF) exposure in everyday environments across European cities. Environ Res 2014; 134(2014):134-142.10.1016/j.envres.2014.07.00325127524 Search in Google Scholar

23. Sánchez-Montero R., Alén-Cordero C., López-Espí P.L., Rigelsford J.M., Aguilera-Benavente F., Alpuente-Hermosilla J. Long term variations measurement of electromagnetic field exposures in Alcalá de Henares (Spain). Sci Total Environ 2017; 598 (2017):657-668.10.1016/j.scitotenv.2017.03.13128454038 Search in Google Scholar

24. Aerts S, Wiart J, Martens L, Joseph W. Assessment of long-term spatio-temporal radiofrequency electromagnetic field exposure. Environ Res 2018; 161: 136-43.10.1016/j.envres.2017.11.00329145005 Search in Google Scholar