350 руб
Журнал «Биомедицинская радиоэлектроника» №2 за 2015 г.
Статья в номере:
Разработка возможных методов и подходов для регистрации электромагнитных полей, испускаемых человеческим телом
Ключевые слова: электромагнитные поля инфракрасное излучение инфра¬красная термография биолюминисценция цветной коронный спектральный анализ НЭС ДНЭС
Авторы:
Игнат Игнатов - Sc.D., профессор, директор, Научно-исследовательский центр медицинской биофизики (г. София, Болгария). E-mail: mbioph@dir.bg О.В. Мосин - к.х.н., науч. сотрудник, Московский университет прикладной биотехнологии E-mail: mosin-oleg@yandex.ru Х. Ниггли - Sc.Dr., научный консультант, "Прикладная Биофотоника" К. Дроссинакис - дипломированный инженер, председатель IAWG-GmbH, IAWG-GmbH Г. Тыминский - Ph.D., M.D., председатель Европейского научного Общества
Аннотация:
Представлены результаты оценки возможных биофизических методов и подходов для регистрации различных неионизирующих излучений (NIR), испускаемых чело¬веческим телом в оптическом и электромагнитном диапазонах. Рассмотрены различ¬ные виды NIR-излучений (электромагнитные волны, инфракрасное излучение, теп¬ловое излучение, биолюминесценция), испускаемые человеческим телом.
Страницы: 21-38
Список источников

 

  1. Ignatov I. Energy Biomedicine. Sofia: Gea Libris. 2005. 88 p.
  2. Rubik B. The biofield hypothesis: its biophysical basis and role in medicine // J. Altern. Complement Med. 2002. V. 8. № 6. P. 703-717.
  3. Dobrin R., Kirsch C., Kirsch S. Experimental measurements of the human energy field / In S. Krippner (ed.), Psychoenergetic Systems: The Interface of Consciousness, Energy and Matter. New York: Gordon & Breach. 1979. 230 p.
  4. Kiang J.G., Ives J.A., Jonas W.B. External bioenergy-induced increases in intracellular free calcium concentrations are mediated by Na+/Ca2+ exchanger and L-type calcium channel // Mol. Cell Biochem. 2005. V. 271. P. 51-57.
  5. Miller M.W. Extremely low frequency (ELF) electric fields: experimental work on biological effects / In: CRC Handbook of biological effects of electromagnetic fields. New York: Academy Press. 1986. P. 138-168.
  6. Kwan-Hoong Ng. Non-ionizing radiations - sources, biological effects, emissions and exposures // Proceedings of the International Conference on Non-Ionizing Radiation at UNITEN (ICNIR 2003). Electromagnetic Fields and Our Health. 20-22 October 2003.
  7. Anderson L.E. Biological effect of extremely low frequency electromagnetic fields: in vivo studies // Am. Ind. Hig. Assoc. J. 1993. V. 54. P. 186-196.
  8. Gubkin A.N. Electrets. Moscow: Nauka. 1978, 192 p.
  9. Sessler G.M., Gerhard-Multhaupt R. (eds) Electrets. Morgan Hill. California, USA: Laplacian Press. 1998.
  10. Barnes F.S., Greenebaum B.B. (eds.) CRC Handbook on biological effects of electromagnetic fields. Boca Raton: CRC Press. November 2006. V. 2. 960 p.
  11. Seto A., Kusaka C., Nakazato S. Detection of extraordinary large bio-magnetic field strength from human hand // Acupuncture Electrother Res. Int. J. 1992. V. 17. P. 75-78.
  12. Shimizu H., Suzuki Y., Okonogi H. Biological effects of electromagnetic fields // Nippon Eiseigaki Zasshi. 1995. V. 50. № 6. P. 919-931.
  13. Holzel R., Lamprecht I. Wirkungen elektromagnetischer Felder auf biologische Systeme // Nachrichtentech Elektron. 1994. V. 44. № 2. P. 28-32.
  14. Gulyaev Yu.V., Godik E.E. On the possibilities of the functional diagnostics of the biological subjects via their temporal dynamics of the infrared images // USSR Academy Nauk Proceedings/Biophysics. 1984. V. 277. P. 1486-1491.
  15. Cohen S., Popp F.A. Biophoton emission of the human body // Journal of Photochemistry and Photobiology B: Biology. 1997. V. 40. № 2. P. 187-189.
  16. Choi C., Woo W.M., Lee M.B. Biophoton emission from the hands // J. Korean Physical. Soc. 2002. V. 41. P. 275-278.
  17. Niggli H. Artificial sunlight irradiation induces ultra weak photon emission in human skin fibroblasts // Journal of Photochemistry and Photobiology B: Biology. 1993. V. 18. № 2-3. P. 281-285.
  18. Ignatov I., Mosin O.V. Kirlian effectinbiomedical diagnosticsandstudy ofbioenergetical properties of biological objects and water // Biomedical Radio electronics, Biomedical Technologies and Radio Electronics. 2012. V. 12. P. 13-21 [in Russian].
  19. Ignatov I., Antonov A., Galabova T. Medical Biophysics ? Biophysical Fields of Man. Sofia: Gea Libris. 1998, P. 1-71.  
  20. Gulyaev Yu.V., Godik E.E. Human and animal physical fields // Scientific American. 1990. V. 5. P. 74-83.
  21. GerardiG., De Ninno A., Prosdocimi, M., et al. Effects of electromagnetic fields of low frequency and low intensity on rat metabolism // Biomagnetic Research and Technology. 2008. V. 6. P. 3-12.
  22. Bars Le, Andre G. Biological effects of electric fields on rats and rabbits // Red. Gen. Elect. (special issue). July 1976. P. 91-97.
  23. Goodman R., Greenbaum B., Marron M.T. Effects of electromagnetic fields on molecules and cells // Int. Rev. Cytol. 1995. V. 158. P. 279-338.
  24. Zhadin M.N. Review of Russian literature on biological action of DC and low-frequency AC magnetic fields // Bioelectromagnetics. 2001. V. 22. P. 27 - 45.
  25. Mosin O.V. Advanced technologies and equipment for magnetic water treatment (review) // Water supply and sanitary technique. V. 8. P. 12-32 [in Russian].
  26. Anosov V.N., Trukhan E.M. A new approach to the problem of weak magnetic fields: An effect on living objects // Doklady Biochemistry and Biophysics. 2003. V. 392. № 1-6. P. 274-278.
  27. Rauhut M.M. Chemiluminescence / In: M. Grayson (Ed). Kirk-Othmer Concise Encyclopedia of Chemical Technology. 3rd ed. New York: John Wiley and Sons. 1985. 247 p.
  28. Hastings J.W. Biological diversity, chemical mechanisms, and the evolutionary origins of bioluminescent systems // J. Mol. Evol. 1983. V. 19. № 5. P. 309-321.
  29. Halliwell B., Gutteridge J.M.C. Free Radicals in Biology and Medicine (2nd ed.). Oxford: Clarendon Press. 1989.
  30. Zlatkevich L., Kamal-Eldin A.Analysis of Lipid Oxidation / In: A. Kamal-Eldin & J. Pokorn (Eds.). New York: AOCS Publishing. 2005.281 p.
  31. Vladimirov Y.A., Traber M.G., Xin W. (eds.) Studies of antioxidants with chemiluminescence. In: Proceedings of the International Symposium on Natural Antioxidants. Molecular Mechanisms and Health Effects. 1996. P. 125-144.
  32. Esterbauer H., Zollner H., Schaur R.J. Aldehydes formed by lipid peroxidation: mechanisms of formation, occurrence, and determination / In: Membrane Lipid Oxidation. Boca Raton: CRC Press. 1990. 283 p.
  33. Popp F.A., Chang J.J., Herzog A., Yan Z., Yan Y. Evidence of non-classical (squeezed) light in biological systems // Physics Letters A. 2002. V. 293. № 1-2. P. 98-102.
  34. Beloussov L., Popp F.A., Voeikov V., van Wijk R. (eds) Biophotonics and Coherent Systems. Moscow: Moscow University Press, 2000. 133 p.
  35. Gurwitsch A.G. A historical review of the problem of mitogenetic radiation // Experientia. 1988. V. 44. P. 545-550.
  36. Nikolaev Y.A. Distant Interactions in Bacteria // Microbiology. 2000. V. 69. № 5. P. 497-503.
  37. Popp F.A., Li K., Gu Q. Recent advances in biophoton research and its application // World scientific. 1992. V. 2.P. 1-18.
  38. Inaba H. Super-high sensitivity systems for detection and spectral analysis of ultraweak photon emission from biological cells and tissues // Experientia. 1988. V. 44. P. 550-559.
  39. Popp F.A., Quao G., Ke-Hsuen L. Biophoton emission: experimental background and theoretical approaches // Modern physics Letters B. 1994. V. 8. P. 21-22.
  40. Rattemeyer M., Popp F.A., Nagl W. Evidence of photon emission from DNA in living systems // Nature Wissenshanften. 1981. V. 68. № 11. P. 572-573.
  41. Popp F.A. Essential differences between coherent and non-coherent effects of photon emission from living organisms / In: X. Shen, R. van Wijk (eds). Biophotonics. New York: Springer. 2005. 124 p.
  42. Kirlian S.D. Method for receiving photographic pictures of different types of objects / USSR Patent № 106401, 1949.
  43. Ignatov I., Mosin O.V. Мethod for Color coronal (Kirlian) spectral analysis // Biomedical Radio electronics, Biomedical Technologies and Radio Electronics. 2013. V. 1. P. 38-47 [in Russian].
  44. Ignatov I., Mosin O.V. Colour crown spectral Kirlian analysis in the modeling of non-equilibrium conditions with a gas electric discharge that simulates the primary atmosphere // Nano engineering. 2013. V. 12. № 30. P. 3-13 [in Russian].
  45. Ignatov I., Mosin O.V. Structural mathematical models describing water clusters // Journal of Mathematical Theory and Modeling. V. 3. № 11. P. 72-87.
  46. Antonov A., Yuskesselieva L. Selective high frequency discharge (Kirlian effect) // Acta Hydrophysica. 1985. P. 5-29.
  47. Gulyaev Yu.V., Godik E.E. Functional Imaging of the Human Body // IEEE Engineering in Medicine and Biology. 1991. V. 10. P. 21-29.
  48. Marinov M., Ignatov I. Color Kirlian spectral analysis Color observation with visual analyzer. Hanover: Euromedica, 2008. p. 57-59.