RESONANCE THERAPY. CERAMIC MATERIALS AND METHODS OF THEIR APPLICATION IN MEDICINE
( Pp. 75-134)
More about authors
Rakhimov Rustam Kh.
Dr. Sci. (Eng.); Head, Laboratory No. 1; Institute of Materials Science of the Academy of Sciences of the Republic of Uzbekistan; Institute of Renewable Energy Sources; Tashkent, Republic of Uzbekistan
Институт материаловедения Академии наук Республики Узбекистан
г. Ташкент, Республика Узбекистан Tikhonova Nina Nikolaevna kandidat medicinskih nauk, starshiy nauchnyy sotrudnik laboratorii №1.
Institute of materials science, SPA «Physics-sun» Academy of Sciences of Uzbekistan
Институт материаловедения Академии наук Республики Узбекистан
г. Ташкент, Республика Узбекистан Tikhonova Nina Nikolaevna kandidat medicinskih nauk, starshiy nauchnyy sotrudnik laboratorii №1.
Institute of materials science, SPA «Physics-sun» Academy of Sciences of Uzbekistan
Abstract:
The scientific article is intended as a scientific and methodical reference article for practicing doctors and scientists. It presents general information on ceramic materials and their potential for use in medicine. A characteristic is given of the resonance therapeutic method of influencing the human body by narrow-range infrared radiation. The article gives step-by-step methodical recommendations and clinical examples of using the emitters in treating various conditions. One section is devoted to describing the method of electroacupuncture diagnosis according to R. Voll, which allows the doctor to detect hidden pathology, establish the relationships between the organs and systems involved in the pathological process, and select the optimal modes of treatment by means of narrow-range emitters.
How to Cite:
Rakhimov R.K., Tikhonova N.N., (2017), RESONANCE THERAPY. CERAMIC MATERIALS AND METHODS OF THEIR APPLICATION IN MEDICINE. Computational Nanotechnology, 1 => 75-134.
Reference list:
Internal Diseases; Ed. B.I. Shulutko, Leningrad, Medicine, 1991.
V.V. Liakhovich, I.B. Tsyrlov, Structural Aspects of Monooxygenase Biochemistry; Novosibirsk, Nauka, 1978.
W. MacMurray, Metabolism in Man; Moscow, Mir, 1980.
N. K. Murathojayev, Essays on Modern Oncology; Tashkent, Fan, 1996.
Popular Medical Encyclopaedia, 3rd edition; Moscow, Soviet Encyclopaedia, 1991.
E.G. Rozantsev, Chemistry and Life, 1986, 7, pp.24-27.
R. Voll, Topographic Position of Measurement Points in Electroacupuncture, V.1; Moscow, TEKHART, 1993.
Kh. Shambakh et al., Hormone Therapy; Moscow, Medicine, 1988.
R. KH. Rakhimov, M. S. Saidov, V. P. Ermakov, Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHast 5. Mekhanizm generatsii impul sov funktsional noy keramikoy , Comp. nanotechnol., 2016, № 2, 81-93
R. KH. Rakhimov, Sintez funktsional noy keramiki na BSP i razrabotki na ee osnove , Comp. nanotechnol., 2015, № 3, 11-25
E. Z. Imamov, T. A. Dzhalalov, R. A. Muminov, R. KH. Rakhimov, Teoreticheskaya model novoy kontaktnoy struktury nanoob ekt-poluprovodnik , Comp. nanotechnol., 2015, № 4, 51-63
R. KH. Rakhimov, Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHast 1 , Comp. nanotechnol., 2016, № 2, 9-27
Imamov E. Z., Dzhalalov T. A., Muminov R. A., Rakhimov R. KH., Otlichitel nye osobennosti kontaktnykh struktur s nanorazmernymi vklyucheniyami poluprovodnikovykh fotodiodov. ZHurnal Computational nanotechnology , №3, 2016, 196-203.
Imamov E. Z., Djalalov T. A., Muminov R. A., Rakhimov R. Kh., The difference between the contact structure with nanosize inclusions from the semiconductor photodiodes. ZHurnal Computational nanotechnology , №3, 2016, 203-208
Rakhimov R. KH., Ermakov V. P., Rakhimov M. R., Latipov R. N. Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHAST 6. ZHurnal Computational nanotechnology , №3, 2016, 6-35
Rakhimov R. KH., Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. chast 7. priroda elektromagnitnogo izlucheniya. ZHurnal Computational nanotechnology , №3, 2016, 35-183
V.V. Liakhovich, I.B. Tsyrlov, Structural Aspects of Monooxygenase Biochemistry; Novosibirsk, Nauka, 1978.
W. MacMurray, Metabolism in Man; Moscow, Mir, 1980.
N. K. Murathojayev, Essays on Modern Oncology; Tashkent, Fan, 1996.
Popular Medical Encyclopaedia, 3rd edition; Moscow, Soviet Encyclopaedia, 1991.
E.G. Rozantsev, Chemistry and Life, 1986, 7, pp.24-27.
R. Voll, Topographic Position of Measurement Points in Electroacupuncture, V.1; Moscow, TEKHART, 1993.
Kh. Shambakh et al., Hormone Therapy; Moscow, Medicine, 1988.
R. KH. Rakhimov, M. S. Saidov, V. P. Ermakov, Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHast 5. Mekhanizm generatsii impul sov funktsional noy keramikoy , Comp. nanotechnol., 2016, № 2, 81-93
R. KH. Rakhimov, Sintez funktsional noy keramiki na BSP i razrabotki na ee osnove , Comp. nanotechnol., 2015, № 3, 11-25
E. Z. Imamov, T. A. Dzhalalov, R. A. Muminov, R. KH. Rakhimov, Teoreticheskaya model novoy kontaktnoy struktury nanoob ekt-poluprovodnik , Comp. nanotechnol., 2015, № 4, 51-63
R. KH. Rakhimov, Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHast 1 , Comp. nanotechnol., 2016, № 2, 9-27
Imamov E. Z., Dzhalalov T. A., Muminov R. A., Rakhimov R. KH., Otlichitel nye osobennosti kontaktnykh struktur s nanorazmernymi vklyucheniyami poluprovodnikovykh fotodiodov. ZHurnal Computational nanotechnology , №3, 2016, 196-203.
Imamov E. Z., Djalalov T. A., Muminov R. A., Rakhimov R. Kh., The difference between the contact structure with nanosize inclusions from the semiconductor photodiodes. ZHurnal Computational nanotechnology , №3, 2016, 203-208
Rakhimov R. KH., Ermakov V. P., Rakhimov M. R., Latipov R. N. Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHAST 6. ZHurnal Computational nanotechnology , №3, 2016, 6-35
Rakhimov R. KH., Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. chast 7. priroda elektromagnitnogo izlucheniya. ZHurnal Computational nanotechnology , №3, 2016, 35-183
Keywords:
Functional ceramics, impulsive radiation, range converters, gall bladder, liver, the kidneys, heart, cholesterin, blood, inflammation, tumors, backbone, immunity.
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