Evaluation of Age- and Dose-Related Changes in Rats
Zeitschrift Cellular and Molecular Neurobiology
Verlag Springer Netherlands
ISSN 0272-4340 (Print) 1573-6830 (Online)
Heft Volume 29, Numbers 6-7 / September 2009
Kategorie Original Paper
DOI 10.1007/s10571-009-9385-3
Seiten 981-990
Fachgebiete Biomedizin & Life Sciences
SpringerLink Date Samstag, 21. März 2009
Immunohistochemical Study of Postnatal Neurogenesis After Whole-body Exposure to Electromagnetic Fields: Evaluation of Age- and Dose-Related Changes in Rats
Judita Orendáčová1 Contact Information, Eniko Račeková1, Martin Orendáč2, Marcela Martončíková1, Kamila Saganová1, Kamila Lievajová1, Henrieta Abdiová4, Ján Labun3 and Ján Gálik1
(1) Institute of Neurobiology, Center of Excellence, Slovak Academy of Sciences, Šoltésovej 4, Košice, 040 01, Slovak Republic
(2) Faculty of Electrical Engineering and Informatics, Department of Theoretical Electrotechnics and Electrical Measurement, Technical University of Košice, Letná 9, Košice, 042 00, Slovak Republic
(3) Faculty of Aeronautics, Department of Avionics, Technical University of Košice, Rampová 7, Košice, 040 01, Slovak Republic
(4) Stredná zdravotnícka škola, Moyzesova 17, Košice, 040 01, Slovak Republic
Received: 12 November 2008
Accepted: 27 February 2009
Published online: 21 March 2009
Abstract
It is well established that strong electromagnetic fields (EMFs) can give rise to acute health effects, such as burns, which can be effectively prevented by respecting exposure guidelines and regulations. Current concerns are instead directed toward the possibility that long-term exposure to weak EMF might have detrimental health effects due to some biological mechanism, to date unknown. (1) The possible risk due to pulsed EMF at frequency 2.45 GHz and mean power density 2.8 mW/cm2 on rat postnatal neurogenesis was studied in relation to the animal’s age, duration of the exposure dose, and post-irradiation survival. (2) Proliferating cells marker, BrdU, was used to map age- and dose-related immunohistochemical changes within the rostral migratory stream (RMS) after whole-body exposure of newborn (P7) and senescent (24 months) rats. (3) Two dose-related exposure patterns were performed to clarify the cumulative effect of EMF: short-term exposure dose, 2 days irradiation (4 h/day), versus long-term exposure dose, 3 days irradiation (8 h/day), both followed by acute (24 h) and chronic (1–4 weeks) post-irradiation survival. (4) We found that the EMF induces significant age- and dose-dependent changes in proliferating cell numbers within the RMS. Our results indicate that the concerns about the possible risk of EMF generated in connection with production, transmission, distribution, and the use of electrical equipment and communication sets are justified at least with regard to early postnatal neurogenesis.
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