Calculation of experimental apparatus for biological object irradiation by ultrawideband electromagnetic field
Keywords:
ultrawideband field, impulse field, specific absorption rate, cell irradiation
Abstract
The phenomena of homogeneous irradiation of biological solutions by impulse electromagnetic field is investigated. The optimization of construction and sizes of the apparatus for the irradiation is carried out by direct numerical calculation in time domain. Uniformity of heat distribution in solution is studied.Downloads
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References
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2. Vorst A. vonder, Rosen A., Kotsuka Y. RF / Microwave Interaction with Biological Tissues. – Hoboken: John Wiley & Sons, Inc., 2006. – 330 p.
3. Preece A.W. Safety Aspects of Radio Frequency Effects in Humans from Communication Devices / In Handbook of Antennas in Wireless Communications. Ed. Lal Chand Godara. – New York: CRC Press, 2002. – 888 p.
4. Shckorbatov Y.G., Shakhbazov V.G., Grigoryeva N.N., Grabina V.A. Microwave irradiation influences on the state of human cell nuclei // Bioelectromagnetics. – 1998, 19(7). – P. 414-419.
5. Huss J. The potential dangers of electromagnetic fields and their effect on the environment // Report of Committee on the Environment, Agriculture and Local and Regional Affairs. Parliamentary Assembly of Council of Europe, 6 May 2011. P. 1 – 12.
6. Tice R.R., Hook G.G., Donner M., McRee D.I., Guy A.W. Genotoxicity of radiofrequency signals. I. Investigation of DNA damage and micronuclei induction in cultured human blood cells // Bioelectromagnetics. – 2002. –V.23. – N2. – P.113-126.
7. Salford L. G., Brun A. K, Eberhardt J. L. et al. Nerve cell damage in mammalian brain after exposure to microwaves from GSM mobile phones //Environ. Health Perspect. 2003. Vol. 111, P. 881-883.
8. Kheifets L., Repacholi M, Saunders R. The Sensitivility of Children to Electromagnetic fields //Pediatrics. 2005. Vol. 116. P. 303-313.
9. Shckorbatov Y, G. He-Ne laser light induced changes in the state of chromatin in human cells // Naturwissenschaften. 1999. Vol. 86. N 9. P. 452-453.
10. Yao K., Wang K. J., Sun Z. H. et al. Low power microwave radiation inhibits the proliferation of rabbit lens epithelial cells by upregulating P27Kipl expression // Mol. Vis. 2004. Vol. 10. P. 138-143.
11. HookG. J., Zhang P., Lagroyel. Measurement of DNA damage and apoptosis in Molt- 4 cells after in vitro exposure to radiofrequency radiation //Rad. Res. 2004. Vol. 161. P. 193-200.
12. Kheifets L., Repacholi M, Saunders R. The Sensitivility of Children to Electromagnetic fields //Pediatrics. 2005. Vol. 116. P. 303-313.
13. Garaj-Vrhovac V., FucicA., Horvat D. The correlation between the frequency of micronuclei and specific chromosome aberrations in human lymphocytes exposed to micro waves //Mutat. Res. 1992. Vol. 281. P. 181-186.
14. Garaj-Vrhovac V., Horvat D., Karen Z. Effect of microwave radiation on the cell genome // Mutat. Res., Mutat. Res. Lett. 1990. Vol. 243. N 2. P. 87-93.
15. Vijayalaxmi, Bisht K. S., Pickard W. F. et al. Chromosome damage and micronucleus formation in human blood lymphocytes exposed in vitro to radiofrequency radiation at a cellular telephone frequency (847.74 MHz, CDMA) //Rad. Res. 2001. Vol. 156. P. 430-432.
16. Shckorbatov Y. G., Pasiuga V. N, Kolchigin N. N. et al. The influence of differently polarized microwave radiation on chromatin in human cells // Int. J. Rad. Biol. 2009.Vol. 85. N4. P. 322-329.
17. Сердюк А. М. Взаимодействие организма с электромагнитными полями как факторами окружающей среды /А. М. Сердюк - К.: Наукова думка, 1977. - 228 с.
18. Lacy-Hulbert A., Metcalfe J. C., Hesketh R. Biological responses to electromagnetic fields / A. Lacy-Hulbert J. C. Metcalfe, R. Hesketh // The FASEB Journal. - 1998. -No 12. - P.395-420.
19. Repacholi M. H. Radiofrequency field exposure and cancer: What do the laboratory studies suggest? / M. H. Repacholi // Env. Health Res. Persp. - 1997. - V.105, Suppl. 6. -P.1565-1568.
20. Szmigielski S. Cancer morbidity in subjects occupationally exposed to high frequency (radio -frequency and microwave) electromagnetic radiation / S. Szmigielski // Sci. Total Environ. - 1996. - V. 180. - P. 9-17.
21. Залюбовская Н. П. Влияние электромагнитных волн миллиметрового диапазона на клетки культуры ткани / Н. П. Залюбовская, Р. И. Киселев. Е. Ф. Тесленко-Пономаренко // Экспериментальная и клиническая радиология. - 1973. - № 9. - С. 177-179.
22. Shckorbalov Y. G. Changes in the human nuclear ciiromatin induced by ultra wideband pulse irradiation /Y. G. Shckorbatov, V. N. Pasiuga, N. N. Kolchigin and others// Central European Journal of Biology. - 2009. - V.4, Nol.-P. 97-106.
23. Shckorbatov Y. G. The influence of differently polarized microwave radiation on chromatin in human cells /Y. G. Shckorbalov. V. N. Pasiuga, N. N. Kolchigin and others // International Journal of Radiation Biology. - 2009. - V.85, No 4. - P. 322-329.
24. Шкорбатов Ю. Г. О роли изменений состояния хроматина и биоэлектрических свойств ядер в реакции клеток на внешние воздействия / Ю. Г. Шкорбатов, В. Г. Шахбазов, А. О. Руденко, М. Болхассани // Труды по фундаментальной и прикладной генетике. - Х.: Штрих, 2001. - С.128-139
25. Шкорбатов Ю. Г. Состояние хроматина как индикатор экологической безопасности /Ю. Г. Шкорбатов, А. Л. Савенкова // Актуальные вопросы теоретической и прикладной биофизики, физики и химии -2009: материалы V Международной научно-технической конференции - Севастополь, 2009. -С.222-224.
Cited
How to Cite
Думин, А. Н., Шкорбатов, Ю. Г., Чернов, А. И., & Катрич, В. А. (1). Calculation of experimental apparatus for biological object irradiation by ultrawideband electromagnetic field. Visnyk of V.N. Karazin Kharkiv National University, Series “Radio Physics and Electronics”, (24), 85-90. Retrieved from https://periodicals.karazin.ua/radiophysics/article/view/6390
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Original Article
