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. |
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Copyright © The Author(s), 2024. Published by Science Publishing Group |
Structure Water, Spectroscopy, Information
| [1] | Beckij O. V., Golant M. B., Devjatkov N. D. Millimetrovye volny v biologii, Moskva, izd. "Znanie", 1988. |
| [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. |
| [14] | Volkov E. S., Vljal'ko V. I. Jelektrichestvo na sluzhbe zdorov'ja. K.: Zdorov'e., 1989, p. 88. |
| [15] | N. A. Zhevago, K. A. Samoilova, K. D. Obolenskaya. Cytokine content variations in peripheral blood of volunteers after exposure to polychromatic visible and infrared light. // Cytology. – 2005. – Vol. 47(5), P. 446-459. |
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
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
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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Download@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}
}
TY - JOUR T1 - The Application of Corrective Underwater Spinal Traction with Underwater Phototherapy to the Spine Pathology AU - Bitsoev Vladimir Dodtievich Y1 - 2015/12/22 PY - 2015 N1 - https://doi.org/10.11648/j.cmr.20150406.17 DO - 10.11648/j.cmr.20150406.17 T2 - Clinical Medicine Research JF - Clinical Medicine Research JO - Clinical Medicine Research SP - 204 EP - 213 PB - Science Publishing Group SN - 2326-9057 UR - https://doi.org/10.11648/j.cmr.20150406.17 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 IS - 6 ER -
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