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The Application of Corrective Underwater Spinal Traction with Underwater Phototherapy to the Spine Pathology

Received: 26 November 2015     Accepted: 6 December 2015     Published: 22 December 2015
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Abstract

In this work, we study the effect of water structure on absorption spectra of water that is subject to electromagnetic radiation of the following types: 1. polychromatic visible and infrared polarized (PVIP) light emitted by a "Bioptron" device with a wavelength of 480 to 3,400 nm and frequency of 625 to 88 THz under water via a fiber optic cable and with an exposure of 2, 4, 6, 10, 15, and 30 minutes; 2. electromagnetic waves belonging to a 5.6 mm range with a frequency of 50-52 GHz and an exposure of 2, 4, 6, 10, 15, and 30 minutes via a radiation source with dimensions over 5 cm immersed into water; 3. one-time effect of PVIP light and CO2 at a temperature of 0°C and with an exposure of 4 minutes; 4. one-time effect of electromagnetic waves belonging to a 5.6 mm range and CO2 at a temperature of 0°C and with an exposure of 4 minutes; 5. effect of PVIP light on water from a 10 cm height above the water surface. The conducted studies have shown that the best changes occur in water irradiated with PVIP light during 4 and 15 minutes as compared to the absorption spectra of a control specimen of tap water. Significant changes in the water structure occurred if water was irradiated with PVIP light from a 10-cm height above the water surface during 15 minutes. The studies showed as well that after the end of 4- and 15-minute exposure of water to electromagnetic waves (26 and 15 minutes later, respectively) the water structure significantly improved owing to its unique ability to store and transmit information.

Published in Clinical Medicine Research (Volume 4, Issue 6)
DOI 10.11648/j.cmr.20150406.17
Page(s) 204-213
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2015. Published by Science Publishing Group

Keywords

Structure Water, Spectroscopy, Information

References
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[2] Benujell K. "Osnovy molekuljarnoj spektroskopii. Per. s angl. - M.: Mir, 1985.
[3] Bobovich Ja. S. Poslednie dostizhenija v spektroskopii spontannogo kombinacionnogo rassejanija sveta. "Uspehi fizicheskih nauk", 1969, T. 97, vyp. 1, p. 37.
[4] Gorbunov A. M., Voloshin T. G., Il'enko V. D. Metod kontrolja struktury vody posle jenergoinformacionnoj obrabotki i ee fiziologicheskoe dejstvie. //Sbornik trudov. Mezhdunarodnyj forum "Integrativnaja medicina". M.: Medicina, 2008. - T.2 - p. 158-167.
[5] Gorbunov A. M., Voloshina T. G., Il'enko V. A. Narushenie reguljacii metabolizma belkovyh struktur - prichina vozniknovenija zabolevanij i ego korrekcija vodoj, aktivirovannoj jenergoinformacionnymi tehnologijami. //Sbornik nauchnyh trudov. III Rossijskij gameopaticheskij s#ezd. - M.: Medicina. - 2007. - p. 242-245.
[6] Hetagurova L. G., Salbiev K. D. Hronopatofiziologija doklinicheskih narushenij zdorov'ja. Vladikavkaz, 2000, p. 146-149.
[7] Kochubej V. I., Bashkatov A. N. Spektroskopija rasseivajushhih sred. Uchebnoe posobie, Saratov, 2014g., p. 87.
[8] Monstrey. S., Hoeksema. H., Saelens. H., Depuydt. K. Hamdi. M., K. Van Landuyt and P. Blondeel KONSERVATIVNOE LEChENIE GLUBOKIH KOZhNYH OZhOGOVYH RAN S ISPOL''ZOVANIEM TERAPII POLJaRIZOVANNYM SVETOM. Britanskij zhurnal plasticheskoj hirurgii (2002) 55, 420-426.
[9] Monstrey S. Hoeksema H. Depuydt K. Van Maele G, Van Landuyt K. Blondeel P. The effect of polarized light on wound healing, Eur J Plasl Surg 2002: 24: p. 377-82.
[10] Mosin O. V. Vozdejstvie jelektromagnitnyh voln nizkoj intensivnosti na vodu i biologicheskie obekty. M., 2004.
[11] K.A. Samoilova. The mechanisms of anti-inflammatory, immunomodulatory, wound-healing and metabolism normalizing action of light from Bioptron device. // Proceedings of NEW TRENDS IN THE USE OF BIOPTRON PHOTOTHERAPY Scientific Conference. – 2003. – P. 10-14.
[12] Sinicyn N. I., Petrosjan V. I., Elkin V. A. Osobaja rol' sistemy "millimetrovye volny - vodnaja sreda" v prirode. //Biomedicinskaja radiojelektronika.//, 1998, №1, str. 5-23.
[13] V. S. Ulashchik. General Physiotherapy. – Minsk, 2005. – p. 510.
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Cite This Article
  • APA Style

    Bitsoev Vladimir Dodtievich. (2015). The Application of Corrective Underwater Spinal Traction with Underwater Phototherapy to the Spine Pathology. Clinical Medicine Research, 4(6), 204-213. https://doi.org/10.11648/j.cmr.20150406.17

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    ACS Style

    Bitsoev Vladimir Dodtievich. The Application of Corrective Underwater Spinal Traction with Underwater Phototherapy to the Spine Pathology. Clin. Med. Res. 2015, 4(6), 204-213. doi: 10.11648/j.cmr.20150406.17

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    AMA Style

    Bitsoev Vladimir Dodtievich. The Application of Corrective Underwater Spinal Traction with Underwater Phototherapy to the Spine Pathology. Clin Med Res. 2015;4(6):204-213. doi: 10.11648/j.cmr.20150406.17

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  • @article{10.11648/j.cmr.20150406.17,
      author = {Bitsoev Vladimir Dodtievich},
      title = {The Application of Corrective Underwater Spinal Traction with Underwater Phototherapy to the Spine Pathology},
      journal = {Clinical Medicine Research},
      volume = {4},
      number = {6},
      pages = {204-213},
      doi = {10.11648/j.cmr.20150406.17},
      url = {https://doi.org/10.11648/j.cmr.20150406.17},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.cmr.20150406.17},
      abstract = {In this work, we study the effect of water structure on absorption spectra of water that is subject to electromagnetic radiation of the following types: 1. polychromatic visible and infrared polarized (PVIP) light emitted by a "Bioptron" device with a wavelength of 480 to 3,400 nm and frequency of 625 to 88 THz under water via a fiber optic cable and with an exposure of 2, 4, 6, 10, 15, and 30 minutes; 2. electromagnetic waves belonging to a 5.6 mm range with a frequency of 50-52 GHz and an exposure of 2, 4, 6, 10, 15, and 30 minutes via a radiation source with dimensions over 5 cm immersed into water; 3. one-time effect of PVIP light and CO2 at a temperature of 0°C and with an exposure of 4 minutes; 4. one-time effect of electromagnetic waves belonging to a 5.6 mm range and CO2 at a temperature of 0°C and with an exposure of 4 minutes; 5. effect of PVIP light on water from a 10 cm height above the water surface. The conducted studies have shown that the best changes occur in water irradiated with PVIP light during 4 and 15 minutes as compared to the absorption spectra of a control specimen of tap water. Significant changes in the water structure occurred if water was irradiated with PVIP light from a 10-cm height above the water surface during 15 minutes. The studies showed as well that after the end of 4- and 15-minute exposure of water to electromagnetic waves (26 and 15 minutes later, respectively) the water structure significantly improved owing to its unique ability to store and transmit information.},
     year = {2015}
    }
    

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    AU  - Bitsoev Vladimir Dodtievich
    Y1  - 2015/12/22
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    AB  - In this work, we study the effect of water structure on absorption spectra of water that is subject to electromagnetic radiation of the following types: 1. polychromatic visible and infrared polarized (PVIP) light emitted by a "Bioptron" device with a wavelength of 480 to 3,400 nm and frequency of 625 to 88 THz under water via a fiber optic cable and with an exposure of 2, 4, 6, 10, 15, and 30 minutes; 2. electromagnetic waves belonging to a 5.6 mm range with a frequency of 50-52 GHz and an exposure of 2, 4, 6, 10, 15, and 30 minutes via a radiation source with dimensions over 5 cm immersed into water; 3. one-time effect of PVIP light and CO2 at a temperature of 0°C and with an exposure of 4 minutes; 4. one-time effect of electromagnetic waves belonging to a 5.6 mm range and CO2 at a temperature of 0°C and with an exposure of 4 minutes; 5. effect of PVIP light on water from a 10 cm height above the water surface. The conducted studies have shown that the best changes occur in water irradiated with PVIP light during 4 and 15 minutes as compared to the absorption spectra of a control specimen of tap water. Significant changes in the water structure occurred if water was irradiated with PVIP light from a 10-cm height above the water surface during 15 minutes. The studies showed as well that after the end of 4- and 15-minute exposure of water to electromagnetic waves (26 and 15 minutes later, respectively) the water structure significantly improved owing to its unique ability to store and transmit information.
    VL  - 4
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    ER  - 

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Author Information
  • Physiotherapy Department, Frumkin Research Institute of Physical Chemistry, Moscow, Russia

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