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Биологические эффекты низкоинтенсивных миллиметровых волн (обзор)

Ключевые слова:

Н.Н. Лебедева – д.б.н., профессор, академик РАЕН, лауреат Госпремии РФ, зав. лабораторией прикладной физиологии высшей нервной деятельности человека, Институт высшей нервной деятельности и нейрофизиологии РАН (Москва) О.В. Бецкий – д.ф.-м.н., профессор, академик РАЕН, лауреат Госпремии РФ, зав. лабораторией, Институт радиотехники и электроники РАН (Москва)


Представлен обзор основных результатов экспериментальных исследований биологических эффектов низкоинтенсивных электромагнитных полей миллиметрового диапазона.
Список литературы:

  1. Betskii OV, Kislov VV. Waves and cells. Ser. Fizika; Moscow: Znanie 1988.
  2. Betskii OV, Yaremeko YuG. Skin and electromagnetic waves. Millimetrovye Volny v Biologii i Meditsine 1998; 1(11): 3-14 (in Russian).
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  4. Gaiduk VI. Water, Radiation and Life, Moscow: Znanie, Ser. Fizika, 1991.
  5. Govallo VI, Sarkisyan AG, Efimtseva NI et al. Effect of EHF therapy on T-lymphocyte and NK-cell indices during secondary immunodeficiency. In: Devyatkov ND , ed. MM Waves in Medicine. Moscow: IRE RAN, 1981: 182-186  (in Russian).
  6. Tambiev AKh, Kirikova NN, Luk’yanov A A. Application of active frequencies of electromagnetic radiation of the millimeter-wave and centimeter-wave bands in microbiology. Naukoyomkie Tekhnologii 2002; 1: 34-53 (in Russian).
  7. Petrov IYu,  Betskii OV. Potential variation in the plasma membrane of green-leaf cells under MM-wave electromagnetic irradiation. DAN SSSR 1989; 305-2: 474-476 (in Russian).
  8. Berzhanskaya LYu, Beloplotova OYu, Berzhanskii V N. Effect of electromagnetic radiation on higher plants. Millimetrovye Volny v Biologii i Meditsine 1993; 2: 68-72 (in Russian).
  9. Petrov IYu, Morozova EV, Moiseeva TB. MM-wave-induced stimulation of vital processes in plants. In: MM Waves of Nonthermal Intensity in Medicine and Biology. Moscow: IRE RAN, 1991; 2:502-504 (in Russian).
  10. Betskii OV, Putvinskii AV. Biological effects of low-intensity MM-wave radiation. Radioelektronika, Izv. VUZov, 1986; 10:4-10 (in Russian).
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  13. Lebedeva NN. CNS responses to electromagnetic fields with different biotropic parameters.  Biomeditsinskaya Radioelektronika 1998; 1:24-36, (in Russian).
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  16. Fesenko EE, Gelentyuk VI, Kasachenko VN, Chemeris NK. Preliminary microwave irradiation of water solutions changes their channel-modifying activity. FEBS Letters 1995; 366: 49-52.
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  19. Petrosyan VI,  Sinitsin NI, Yolkin VA et al. Water, paradoxes and grandeur of small quantities. Biomeditsinskaya Radioelektronika 1998; 2: 5-23 (in Russian).
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  25. Sevast’yanova LA, Potapov SL, Adamenko VG. Changes in hemopoiesis under the action of microwave and X-ray radiation. The Fifth TsNIL Conference on Radiobiology and Biological Effects of Cytostatic Compounds, Tomsk, 1970 (in Russian).
  26. Sevast’yanova LA, Potapov SL. Changes in hemopoiesis under the action of X-ray radition. The Fifth TsNIL Conference on Radiobiology and Biological Effects of Cytostatic Compounds, Tomsk, 1970 (in Russian).
  27. Sevast’yanova LA. Biological effects of MM radio waves on normal tissues and malignant tumors. In: Devyatkov ND, ed. Effects of Nonthermal MM-Wave Influence on Biological Objects. Moscow: IRE AN SSSR, 1983:48-62 (in Russian).
  28. Sevast’yanova LA,  Potapov S L. Changes in hemopoiesis under the action of EHF and X-ray radiation. The Fifth TsNIL Conference on Radiobiology and Biological Effects of Cytostatic Compounds, Tomsk, 1970 (in Russian).
  29. Sevast’yanova LA. Biological effects of MM radio waves on normal tissues and malignant tumors. In: Devyatkov N D, ed. Effects of Nonthermal MM-Wave Radiation on Biological Objects. Moscow: IRE AN SSSR, 1983:48-62, (in Russian).
  30. Sevast’yanova LA, Golant MB, Adamenko VG et al. Effect of microwave radiation on marrow-bone count variations caused by antineoplastic chemotherapeutic compounds. Proceedings of The Second Congress of Oncologists, Omsk, 1980:136, (in Russian).
  31. Sevast’yanova LA, Golant MB, Zubenkova ES et al. Effect of MM radio waves on normal tissues and malignant tumors In: Devyatkov ND,  ed. Application of Low-Intensity MM-Wave Radiation in Biology and Medicine. Moscow: IRE AN SSSR, 1985:37-49 (in Russian).
  32. Adey WR. Frequency and power window in tissue interactions with weak electromagnetic fields. Proceedings of IEEE 1980; 68-1: 119.
  33. Soboleva EI, Ignasheva LP. Survival rate of animals exposed to a lethal dose during transplantation of a cryogenically preserved bone marrow subjected to EHF irradiation.  International Symposium on Millimeter Waves of Nonthermal Intensity in Medicine, Moscow, Oct 3-6, 1991; 2:354-452. 
  34. Devyatkov ND, Pletnyov SD, Chernov ZS, Faikin V V et al. Effect of low-energy nanosecond-pulse EHF and microwave radiation with a giant peak power on biological structures (malignant tumors). DAN SSSR 1994; 336-6 (in Russian).
  35. Devyatkov ND, Betski, OV, Kabisov RK et al. Effect of low-energy nanosecond-pulse EHF and microwave radiation with a giant peak power on biological structures (malignant tumors). Biomeditsinskaya Radioelektronika 1998; 1:56-62, (in Russian).
  36. Govallo VI, Barer FS, Volchek IA et al. Electromagnetic-radiation-induced human lymphocyte and fibroblast production of a cell proliferation activation factor. International Symposium on Millimeter Waves of Nonthermal Intensity in Medicine, Moscow, Oct 3-6, 1991; 2:340-344.
  37. Kamenev YuF, Shaposhnikov YuG, Mussa M, Akimov GV. Physical factors in the complex surgical treatment of a missile limb wound. Aktual’nye Voprosy Voennoi Meditsiny 1988, Kabul:78-80 (in Russian).
  38. Ryzhkova LB, Starik AM, Volgarev AP, Gal’chenko SV, Sazonov AYu. Protective effect of low-intensity MM-wave radiation at a lethal influenzal infection. International Symposium on Millimeter Waves of Nonthermal Intensity in Medicine, Moscow, Oct 3-6, 1991; 2:373-377.
  39. Poslavskii MV. Physical EHF therapy in ulcer treatment and prevention. International Symposium on Millimeter Waves of Nonthermal Intensity in Medicine, Moscow, Oct 3-6, 1991; 2:142-146.
  40.  Adaskevich VG. Application efficiency of MM-wave radiation in the complex treatment of patients with atopic dermatitis. Millimetrovye Volny v Biologii i Meditsine 1994; 3:78-81 (in Russian).
  41. Adaskevich VG. Clinical efficiency and immunoregulating-neurohumoral effects of millimeter-wave and microwave therapies of atopic dermatitis. Millimetrovye Volny v Biologii i Meditsine 1995; 6:30-38 (in Russian).
  42. Gedymin LE, Erokhin VV, Bugrova K M et al. Electromagnetic waves of the MM-wave band in therapy of sarcoidosis of lungs and intrathoracic lymph nodes. Millimetrovye Volny v Biologii i Meditsine 1994; 4:10-16 (in Russian).
  43. Pulyaeva EL, Vetokhina SV. Application of EHF therapy in treatment of genital herpes. Millimetrovye Volny v Biologii i Meditsine 1997; 9-10:55-56 (in Russian).
  44. Elbakidze IL, Ordynskii VF, Sudakova EV et al. EHF therapy in treatment of inflammatory sexually transmitted diseases. Millimetrovye Volny v Biologii i Meditsine 1998; 1(11):39-41 (in Russian).
  45. Donetskaya SV, Zaitseva SYu, Viktorov AM et al. Effect of EHF therapy on skin microbiocenosis in vulgaris acne patients. Millimetrovye Volny v Biologii i Meditsine 1996; 7:57-59.
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  53. Khromova SV. Millimeter-Wave-Induced Modification of Behavioral Reactions in Rats. Thesis Summary of Doctor of Philosophy in Biological Sciences, Moscow: Institute for Higher Nerve Activity of the Russian Academy of Sciences, 1990 (in Russian).
  54. Arzumanov YuL, Kolotygina RF, Khonicheva NM et al. Investigation of the stress-protective effect of EHF electromagnetic waves on animals. Millimetrovye Volny v Meditsine i Biologii  1994; 3:5-10 (in Russian).
  55. Kolotygina RF, Khonicheva NM, Arzumanov YuL et al. MM-wave radiation and alcohol narcosis duration in animals with different types of behavior. Technical Twentieth Russian Symposium with Foreign Participants on Millimeter Waves in Medicine and Biology, Moscow, Apr 24-26, 1997 (in Russian).
  56. Temur’yants NA, Chuyan EN, Tumanyants EN, Tishkina OO, Viktorov NV. Dependence of the antistress effect of electromagnetic waves of the MM-wave band on exposure location in rats with different typologic features. Millimetrovye Volny v Biologii i Meditsine 1993; 2:51-58 (in Russian).
  57. Temur’yants NA, Chuyan EN. Effect of microwaves of nonthermal intensity on the development of hypokinetic stress in rats with different individual features. Millimetrovye Volny v Biologii i Meditsine 1992; 1:22-32 (in Russian).
  58. Lebedeva NN, Sulimova OP. Modifying effect of MM waves on the human CNS functional state under stress simulation. Millimetrovye Volny v Biologii i Meditsine 1994; 3:16-21 (in Russian).
  59. Temur’yants NA, Khomyakova OV, Tumanyants EN, Derpak MN. Dynamics of some psychophysiologic indices during microwave therapy. Eleventh Russian Symposium with Foreign Participants on Millimeter Waves in Medicine and Biology, Moscow, Apr 21-24, 1997 (in Russian).
  60. Krainov VE, Sulimova OP, Larionov IYu. Application of EHF influence in the combined method of psychoemotional rehabilitation. Eleventh Russian Symposium with Foreign Participants on Millimetrovye Volny v Meditsine i Biologii, Moscow, Apr 21-24, 1997 (in Russian).
  61. Tsaritsinskii VI, Taranskaya AD, Derkach VN. Application of electromagnetic waves of the MM-wave band in treatment of depressive states. International Symposium on Millimeter Waves of Nonthermal Intensity in Medicine, Moscow, Oct 3-6, 1991.
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  63. Betskii OV. On the sensitivity of living organisms to extremely weak power densities of EHF electromagnetic waves The Russian Conference with Foreign Participants on Problems of Electromagnetic Safety of Human Beings. Basic and Applied Research, Moscow, Nov 28-29, 1996 (in Russian).
  64. Sinitsyn NI, Petrosyan VI, Yolkin VA, Devyatkov ND, Gulyaev YuV, Betskii OV. Specific role of the ‘MM waves-aqueous medium’ system in nature. Biomeditsinskaya Radioelektronika 1999; 1:3-21 (in Russian).
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  66. Betskii OV. Water and electromagnetic waves. Biomeditsinskaya Radioelektronika 1998; 2:3-6 (in Russian).
  67. Fesenko EE, Geletyuk VI, Kasachenko VN, Chemeris NK. Preliminary microwave irradiation of water solutions changes their channel-modifying activity. FEBS Letters 1995;366:49-52.
  68. Anishchenko VS, Neiman AB, Moss F, Shimanskii-Gaier L. Stochastic resonance as a noise-induced effect of order degree increase. UFN 1999; 169-1: 7-47 (in Russian).
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