ISSN 0869-6632 (Print)
ISSN 2542-1905 (Online)


For citation:

Sinitsyn N. I., Elkin V. A., Betskii O. V. Determining the value of the structure water-containing environment of living tissue in biomedical radio-electronic nanotechnologies millimetric and terahertz ranges. Izvestiya VUZ. Applied Nonlinear Dynamics, 2013, vol. 21, iss. 1, pp. 67-85. DOI: 10.18500/0869-6632-2013-21-1-67-85

This is an open access article distributed under the terms of Creative Commons Attribution 4.0 International License (CC-BY 4.0).
Full text PDF(Ru):
(downloads: 278)
Language: 
Russian
Article type: 
Review
UDC: 
577.356:537.8

Determining the value of the structure water-containing environment of living tissue in biomedical radio-electronic nanotechnologies millimetric and terahertz ranges

Autors: 
Sinitsyn Nikolaj Ivanovich, Saratov Branch of Kotel`nikov Institute of Radiophysics and Electronics of Russian Academy of Sciences
Elkin Vladimir Aleksandrovich, Saratov Branch of Kotel`nikov Institute of Radiophysics and Electronics of Russian Academy of Sciences
Betskii Oleg Vladimirovich, Kotel'nikov Institute of Radioengineering and Electronics of Russian Academy of Sciences
Abstract: 

The article contains the short review of the main results on research of a role of structuration of the water-containing environment in the living tissues. These tissues are used as the objects of research in biomedical radio-electronic nanotechnologies of the extremely high-frequency and terahertz ranges. The experimental devices and technique of researches of the water containing environment structuration under the influence of electromagnetic radiation are described. The results of pilot studies are given. Prospects of the combined impact on an organism of the extremely high-frequency and terahertz radiations with structuring effect of natural minerals and artificial materials are discussed. Diagnostics and therapy prospects by means of offered technologies are estimated. New principals are proposed relating to an explanation of the nature mechanism of live and lifeless elements biocompatibility. One of the first steps of a scientific explanation of the mechanism of a сrystaltherapy is fomulated.

Reference: 
  1. Betsky OV, Golant MB, Devyatkov ND. Millimeter waves in biology. Moscow: Znanie; 1988. 64 p. (In Russian).
  2. Nine ND, Golant MB, Betsky OV. Millimeter waves and their role in life processes. Moscow: Radio I svyaz; 1991. 168 p. (In Russian).
  3. Betsky OV, Kislov BV, Lebedeva NN. Millimeter waves and living systems. Moscow: Science-press; 2004. 272 p. (In Russian).
  4. Sinitsyn NI, Petrosyan VI, Yolkin VA, Devyatkov ND, Gulyaev JV, Betsky OV. The special role of the "millimeter waves - aquatic environment" system in nature. Journal Biomedical Radioelectronics. 1998;1:5–23. (In Russian).
  5. Ling G. Physical theory of a living cell. Unnoticed revolution. St. Petersburg: Nauka; 2008. 492 p. (In Russian).
  6. Sinitsyn NI, Yolkin VA. Diploma No. 329 for opening. Issued on May 29, 2007 by the International Academy of Authors of Scientific Discoveries and Inventions on the basis of the results of the scientific examination of the application for discovery.
  7. Sinitsyn NI, Yolkin VA. The Phenomenon Of Electric Energy Generation By A Thin Water-Containing Layer. Part 1. Experimentally observed electrical characteristics of the water-electric effect. Journal Biomedical Radioelectronics. 2006;1–2:35–53.
  8. Sinitsyn NI, Yolkin VA. The phenomenon of electric energy generation by a thin water-containing layer. Part 2. Experimental Research Of A Thin Water-Containing Layers Structural Development At Their Contact With Various Materials. Journal Biomedical Radioelectronics. 2006;5–6:34–56.
  9. Sinitsyn NI, Yolkin VA. The phenomenon of electric energy generation by a thin water-containing layer. Part 3. Model of the mechanism of water-electric effect and structurization of a thin water-containing layer. Horizons of these phenomena in the nature. Journal Biomedical Radioelectronics. 2007;1:24–38.
  10. Sinitsyn NI, Yolkin VA. Special role of structurization of the water-containing environment in modern biomedical radio-electronic technologies and nanotechnologies the future. Journal Biomedical Radioelectronics. 2007;2–4:31–43.
  11. Sinitsyn NI, Elkin VA, Betskii OV. Millimetric Nanostructural Medicine - Nanotechnology Of The Future In Biomedical Radio-Electronic Technologies. Almanac Of Clinical Medicine. 2008;17-2:354–357.
  12. Sinitsyn NI, Elkin VA, Betskii OV, Kislov VV. Millimeter waves and nanostructures are the future of medicine and bioelectronics. Journal Biomedical Radioelectronics. 2009;3:20–35.
  13. Stone J. All about medicinal and magical minerals. St. Petersburg: SZKEO “Kristall”; 2006. 176 p. (In Russian).
  14. Stuart JS. Crystal therapy. Moscow: Astrel; 2004. 109 p. (In Russian).
  15. Sinitsyn NI, Elkin VA, Sinitsyna RV, Betskii OV. Structurization of water by amino acids - of nanostruktural by substrates of the synthesis of proteins. p. i. experimental research of structurization of water amino acids with the nonpolar hydrophobic side radical. Journal Biomedical Radioelectronics. 2010;12:45–58.
  16. Sinitsyn NI, Elkin VA, Sinitsyna RV, Betskii OV. Structurization Of Water By Amino Acids − Of Nanostruktural By Substrates Of The Synthesis Of Proteins. P. Ii. Experimental Research Of Structurization Of Water By Amino Acids Of Different Class-Rooms With A Hydrophilic Side Radical. Journal Biomedical Radioelectronics. 2011;3:25–39.
  17. Sinitsyn NI, Yolkin VA. The effect of a surface with a nanostructural neo-relationship on the rate of structuring water when it contacts this surface. Collection of works conference: «Millimeter Waves in Biology and Medicine». Moscow: MTA-KVCH. 2009:189–195.
  18. Sinitsyn NI, Yolkin VA. The reseach of the rate of structuring thin water-containing layers is one of the most important factors in biomedical radioelectronic nanotechnologies of the future. Millimeter Waves in Biology and Medicine. 2009;55(3):29–43.
  19. Sinitsyn NI, Yolkin VA, Betsky OV, Suvorov AP, Suvorov SA, Gulyaev AI, Lisenkova LA. On the prospect of using electromagnetic radiation of the millimeter range in oncological diseases. Materials of the All-Russian Scientific Conference with international participation "Nanotechnologies in Oncology 2009”. p. 38–39.
  20. Suvorov AP, Sinitsyn NI, Yolkin VA, Suvorov SA. Method of treating patients with focal baldness. Patent for the Invention No 2364427.
  21. Gulyaev AI, Lisenkova LA, Sinitsyn NI, Yolkin VA. Application of millimeter therapy for nodular thyroid goiter. Oncosurgery. 2009;2:88–89.
  22. Sinitsyn NI, Yolkin VA, Betsky OV, Molochkov VA, Suvorov AP, Suvorov SA, Gurevich GI. New principles of skin cancer diagnosis. Materials of the Third All-Russian Scientific Conference with international participation "Nanotechnologies in Oncology 2010." p. 111–114.
  23. Baumen K. Healing crystal. St. Petersburg: Budushee zemli; 2002. 224 p. (In Russian).
  24. Suvorov AP, Suvorov SA, Sinitsyn NI, Yolkin VA. Biomedical radioelectronic technologies of millimeter and terahertz ranges in dermatosis therapy. Second Congress of the Euro-Asian Association Dermatovenerologists. Moscow-2012. www.eaad2012.ru/tezis/show/39
  25. Sinitsyn NI, Yolkin VA, Betsky OV, Suvorov AP, Suvorov SA, Gurevich GI. New principles of biomedical radioelectronic nanotechnologies of millimeter and terahertz ranges in the diagnosis and therapy of skin cancer. Second Congress of the Euro-Asian Association Dermatovenerologists. Moscow-2012.  www.eaad2012.ru/tezis/show/38 
Received: 
09.01.2013
Accepted: 
09.01.2013
Published: 
31.05.2013
Short text (in English):
(downloads: 102)