Experimental simulation of hemodynamic disorders during acute immobilization stress has shown that expo-sure to continuous terahertz radiation with frequencies equal to absorption and emission frequencies of nitrogen oxide (150.176-150.664 GHz) and atmospheric oxygen (129.0 ± 0.75 GHz) for 5, 15 and 30 minutes allows to revert post-stress hemodynamic changes in great vessels. This allows using terahertz electromagnetic radiation with frequencies equal to absorption and emission frequencies of nitrogen oxide (150.176-150.664 GHz) and atmospheric oxygen (129.0 ± 0.75 GHz) to treat hemodynamic disorders accompanying some of pathologic diseases.
| Published in | American Journal of Bioscience and Bioengineering (Volume 1, Issue 1) |
| DOI | 10.11648/j.bio.20130101.13 |
| Page(s) | 17-23 |
| 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), 2024. Published by Science Publishing Group |
Hemodynamics, Linear Blood Flow Rate, Terahertz Waves, Nitrogen Oxide, Atmospheric Oxygen
| [1] | Betsky O.V., Lebedeva N.N. Application of Low-Intensive Millimeter Waves in Biology and Medicine // Biomedit-synksaya radioelectronika (Biomedical Radioelectronics), 2007, No. 8-9, pp. 6-25. |
| [2] | Kirichuk V.F. Physiological Effects of Extremely High-Frequency and Terahertz Electromagnetic Waves: The Dis-coveries of Saratov Medical Scientists // Biomeditsynksaya radioelectronika (Biomedical Radioelectronics), 2007, No. 2-4, pp. 98-126. |
| [3] | Kirichuk V.F. Achievements of Saratov Scientists in Studying the Influence of Extremely High-Frequency and Terahertz Electromagnetic Waves on Humans and Animals // Millimetrovye Volny v Biologii i Meditsyne (Millimeter Waves in Biology and Medicine), 2007, No. 3, pp. 5-71. |
| [4] | Kirichuk V.F. Results and Perspectives of Experimental Validation of Application of Terahertz Electromagnetic Waves with Frequencies Equal to Frequencies of Molecular Absorption and Emission Spectra (MAES) of Various Cell Metabolites in Clinical Practice // Millimetrovye Volny v Biologii i Meditsyne (Millimeter Waves in Biology and Medicine), 2012, No. 1, pp. 5-24. |
| [5] | Kirichuk V.F., Golovacheva T.V., Parshina S.S., et.al. Appli-cation of NO-therapy in Clinical Practice // Millimetrovye Volny v Biologii i Meditsyne (Millimeter Waves in Biology and Medicine), 2009, No. 1-2, pp. 5-21. |
| [6] | Rothman Y.S., Gordon J.E., Barbe A., et al. The HITRAL Molecular Spectroscopic Database 2008 //Journal of Quan-titative Spectroscopy and Radioactive Transfer, 2009, No. 110, pp. 533-572. |
| [7] | 7. Kirichuk V.F., Sukhova C.V., Antipova O.N. Influence of Exposure to Terahertz Electromagnetic Waves with Fre-quencies Equal to Absorption and Emission Frequencies of Atmospheric Oxygen on Functional Activity of Platelets of Albino Rats with Immobilization Stress // Biomeditsynksaya radioelectronika (Biomedical Radioelectronics), 2008, No. 12, pp. 41-48. |
| [8] | Kirichuk V.F., Ivanov A.N., Antipova O.N. Electromagnetic radiation of the terahertz range at the nitric oxide frequency in correction and prophylaxis of functional activity disorders in thrombocytes of white rats under long-term stress // Tsytologiya (Cytology), 2007, Volume 49, No. 6, pp. 484-490. |
| [9] | Kirichuk V.F., Tsymbal A.A., Krenitsky A.P. et. al.Application of Terahertz Electromagnetic Waves with 129.0 GHz Frequency of Atmospheric Oxygen for Blood Clotting and Fibrinolytic Disorder Treatment // Biomeditsynksaya radioelectronika (Biomedical Radioelectronics), 2009, No. 9, pp. 11-16. |
| [10] | Tsymbal A.A., Kirichuk V.F. Changes in Blood Gas and Electrolyte Concentration Caused by Exposure to Terahertz Radiation with Frequencies of 150.176 – 150.64 GHz Dur-ing Stress // Patologicheskaya Fiziologiya i Expermentalnaya Terapiya (Pathologic Physiology and Experimental Therapy) – 2011, No. 1, pp. 49-51. |
| [11] | Kirichuk V.F., Tsymbal A.A. Effects of terahertz irradiation at nitric oxide frequencies on intensity of lipoperoxidation and antioxidant properties of the blood under stress conditions // Bull Exp Biol Med. 2009 Aug;148(2):200-3. |
| [12] | Kirichuk V.F., Tsymbal A.A. Application of Terahertz Elec-tromagnetic Waves with Frequencies of Nitrogen Oxide for Correction of Antioxidant Blood Activity and Lipid Peroxi-dation During Stress // Russian Journal of Physiology named after N.M. Sechenov, 2010, No. 2, pp. 121 – 127. |
| [13] | Kirichuk V.F., Tsymbal A.A. Application of Terahertz Elec-tromagnetic Waves with Frequencies of Nitrogen Oxide for Correction of Functional Status of Thyroid Body During Stress // Vestnik RAMN (Bulletin of Russian Academy of Medical Sciences), 2010, No. 4, pp. 37-40. |
| [14] | Tsymbal A.A., Kirichuk V.F., Krenitsky A.P. Recovery of Primary Indices of Metabolic Status by Exposure to Terahertz Electromagnetic Waves with Frequencies of Nitrogen Oxide (150.176 – 150.64 GHz) as a Result of Expirement // Biomeditsynksaya radioelectronika (Biomedical Radioelec-tronics), 2011, No. 1, pp. 30-35. |
| [15] | Tsymbal A.A., Kirichuk V.F., Antipova O.N. Changes of Concentration of Adrenocorticotropic Hormone in Blood of Experimental Animals as a Result of Exposure to Terahertz Electromagnetic Waves with 129.0 GHz Frequency of At-mospheric Oxygen During Acute and Continuous Stress // Biomeditsynksaya radioelectronika (Biomedical Radioelec-tronics), 2011, No. 8, pp. 23-29. |
| [16] | Kirichuk V.F., Ivanov A.N., Andronov E.V. Influence of Terahertz Electromagnetic Waves with Frequencies of Ni-trogen Oxide on Post Stress Disorders of Carbohydrate Component and Activity of Platelet Glycoprotein Receptors / // Biomeditsynksaya radioelectronika (Biomedical Radioe-lectronics), 2010, No. 5, pp. 39-46. |
| [17] | Kirichuk V.F., Ivanov A.N., Kiriyazi T.S. Changes in Func-tional State of Endothelium and Peripheral Perfusion of Al-bino Rats with Acute Immobilization Stress as a Result of Exposure to Terahertz Electromagnetic Waves with Fre-quencies of Nitrogen Oxide // Biomeditsynksaya radioelec-tronika (Biomedical Radioelectronics), 2010, No. 12, pp. 30-37. |
| [18] | Kirichuk V.F., Ivanov A.N., Kiriyazi T.S. Correction of microcirculatory disturbances with terahertz electromagnetic radiation at nitric oxide frequencies in albino rats under conditions of acute stress.// Byulleten Experimentalnoi Bi-ologii i Meditsyny (Bulletin of Experimental Biology and Medicine). – 2011, Volume 151, No. 3, pp. 259-262. |
| [19] | Tsymbal A.A., Kirichuk V.F. Apparatus for Extremely-high Frequency (EHF) Electromagnetic Wave Therapy // Med Tekh. 2011, (3):42-46. |
| [20] | Kirichuk VF, Tsymbal AA. Use of terahertz electromagnetic waves for correcting the hemostasis functions / Med Tekh. 2010 Jan-Feb;(1):12-6. |
| [21] | Domashenko R.A., Andozhskaya Yu. S., Plotkin G. L. As-sessing the impact on Clexane microcirculation in patients with Doppler device Minimax // Regionarnoe Krovoobrash-chenie i Mikrotsirkulyatsya (Regional Circulation and Mi-crocirculation), 2002, no. 4, pp. 76-78. |
| [22] | Potselueva M.M., Pustovidko A.V., Evtodienko Yu.V. The formation of reactive oxygen species in aqueous solution under the influence of electromagnetic radiation EHF // Doklady Academii Nauk, 1998, № 3, pp. 415-418. |
| [23] | Pshennikova M.G., Smirin B.V., Bondarenko O.N. Deposi-tion of nitrogen oxide in rats of different genetic lines and its role in the anti-stress effect of adaptation to hypoxia // Russian Journal of Physiology named after N.M. Sechenov, 2000, Volume 86, No. 2, pp. 174 – 181. |
| [24] | Kirichuk V.F., Velikanova T.S., Ivanov A.N. Hemodynamic Changes Induced by Preventive Exposure of Terahertz Rad-iation at a Frequency Range Corresponding to Molecular Emission and Absorption Spectrum of Nitric Oxide in Ani-mals under Conditions of Acute Stress // Byulleten Experi-mentalnoi Biologii i Meditsyny (Bulletin of Experimental Biology and Medicine). – 2010, Volume 151, No. 2, pp. 186-189. |
| [25] | Tsymbal A.A., Kirichuk V.F. Effect of terahertz radiation at a frequency of 129 GHz atmospheric oxygen concentration of nitrite in the blood in different types of experimental stress on the background of the non-selective inhibitor of constitutive NO synthase isoforms // Byulleten Experimentalnoi Biologii i Meditsyny (Bulletin of Experimental Biology and Medicine). – 2011, No. 10, pp. 416-419. |
| [26] | Kirichuk V.F., Ivanov A.N., Kulapina E.G. et.al. Effect of Terahertz Electromagnetic Irradiation at Nitric Oxide Fre-quencies on Concentration of Nitrites in Blood Serum of Albino Rats under Conditions of Immobilization Stress // Byulleten Experimentalnoi Biologii i Meditsyny (Bulletin of Experimental Biology and Medicine). – 2011, Volume 149, No. 12, pp. 132-134. |
| [27] | Kirichuk V.F., Ivanov A.N., Velikanova T.S. et.al. Influence of endothelial NO shyntase inhibitor L-Name and influence of electromagnetic terahertz waves at frequency of molecular spectrum of radiation and absorption of nitric oxide 150,176-150,664 GHz on system hemodynamic in mail rats subjected in conditions of immobilization stress// Biomeditsynksaya radioelectronika (Biomedical Radioelectronics), 2011, №. 1, pp. 19-24. |
| [28] | V.F. Kirichuk, A.N. Ivanov, T.S. Kiriyazi The role of NO-synthase in the reaction of endothelium and changes in pe-ripheral perfusion under the influence of electromagnetic te-rahertz waves at frequencies of nitric oxide in albino rats in a state of acute stress // Biomeditsynksaya radioelectronika (Biomedical Radioelectronics), 2011, №. 8, pp. 12-18. |
| [29] | Ignarro L.J. Nitric oxide as a signating molecule in the vas-cular system: an overview / L.J. Ignarro, G.Cirino, A Casino // J. Cardiovasc. Pharmacol. – 1999. – 34. – p. 879-886. |
| [30] | Addicks K. Nitric oxide modulates sympathetic neuro-transmission at the prejunctional level / K. Addicks, W. Bloch, M. Feelisch // Microsc. Res. Technique. – 1994. - №29. – P. 161 – 168. |
| [31] | Armstead W.M. Nitric oxide contributes to opioid release from glia during hypoxia / W.M. Armstead //Brain Res. – 1998. – V.813. – P. 398 – 401. |
| [32] | Naesh O. Platelet activation in mental stress / O. Naesh, C. Haedersdal, J. Hindberg // Clin. Phisiol. – 1993. – V.13. – P. 299 – 307. |
APA Style
V. F. Kirichuk, V. V. Velikanov, T. S. Velikanova, O. N. Antipova, E. V. Andronov, et al. (2013). Hemodynamic Changes Caused by Exposure of Animals with Acute Immobilization Stress to Continuous Terahertz Radiation. American Journal of Bioscience and Bioengineering, 1(1), 17-23. https://doi.org/10.11648/j.bio.20130101.13
ACS Style
V. F. Kirichuk; V. V. Velikanov; T. S. Velikanova; O. N. Antipova; E. V. Andronov, et al. Hemodynamic Changes Caused by Exposure of Animals with Acute Immobilization Stress to Continuous Terahertz Radiation. Am. J. BioSci. Bioeng. 2013, 1(1), 17-23. doi: 10.11648/j.bio.20130101.13
AMA Style
V. F. Kirichuk, V. V. Velikanov, T. S. Velikanova, O. N. Antipova, E. V. Andronov, et al. Hemodynamic Changes Caused by Exposure of Animals with Acute Immobilization Stress to Continuous Terahertz Radiation. Am J BioSci Bioeng. 2013;1(1):17-23. doi: 10.11648/j.bio.20130101.13
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Download@article{10.11648/j.bio.20130101.13,
author = {V. F. Kirichuk and V. V. Velikanov and T. S. Velikanova and O. N. Antipova and E. V. Andronov and A. N. Ivanov and S. S. Parshina and N. E. Babichenko and T. S. Kiriyazi and E. V. Ponukalina and I. V. Smyshlyaeva and L. K. Tokaeva and A. A. Tsymbal},
title = {Hemodynamic Changes Caused by Exposure of Animals with Acute Immobilization Stress to Continuous Terahertz Radiation},
journal = {American Journal of Bioscience and Bioengineering},
volume = {1},
number = {1},
pages = {17-23},
doi = {10.11648/j.bio.20130101.13},
url = {https://doi.org/10.11648/j.bio.20130101.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.bio.20130101.13},
abstract = {Experimental simulation of hemodynamic disorders during acute immobilization stress has shown that expo-sure to continuous terahertz radiation with frequencies equal to absorption and emission frequencies of nitrogen oxide (150.176-150.664 GHz) and atmospheric oxygen (129.0 ± 0.75 GHz) for 5, 15 and 30 minutes allows to revert post-stress hemodynamic changes in great vessels. This allows using terahertz electromagnetic radiation with frequencies equal to absorption and emission frequencies of nitrogen oxide (150.176-150.664 GHz) and atmospheric oxygen (129.0 ± 0.75 GHz) to treat hemodynamic disorders accompanying some of pathologic diseases.},
year = {2013}
}
TY - JOUR T1 - Hemodynamic Changes Caused by Exposure of Animals with Acute Immobilization Stress to Continuous Terahertz Radiation AU - V. F. Kirichuk AU - V. V. Velikanov AU - T. S. Velikanova AU - O. N. Antipova AU - E. V. Andronov AU - A. N. Ivanov AU - S. S. Parshina AU - N. E. Babichenko AU - T. S. Kiriyazi AU - E. V. Ponukalina AU - I. V. Smyshlyaeva AU - L. K. Tokaeva AU - A. A. Tsymbal Y1 - 2013/02/20 PY - 2013 N1 - https://doi.org/10.11648/j.bio.20130101.13 DO - 10.11648/j.bio.20130101.13 T2 - American Journal of Bioscience and Bioengineering JF - American Journal of Bioscience and Bioengineering JO - American Journal of Bioscience and Bioengineering SP - 17 EP - 23 PB - Science Publishing Group SN - 2328-5893 UR - https://doi.org/10.11648/j.bio.20130101.13 AB - Experimental simulation of hemodynamic disorders during acute immobilization stress has shown that expo-sure to continuous terahertz radiation with frequencies equal to absorption and emission frequencies of nitrogen oxide (150.176-150.664 GHz) and atmospheric oxygen (129.0 ± 0.75 GHz) for 5, 15 and 30 minutes allows to revert post-stress hemodynamic changes in great vessels. This allows using terahertz electromagnetic radiation with frequencies equal to absorption and emission frequencies of nitrogen oxide (150.176-150.664 GHz) and atmospheric oxygen (129.0 ± 0.75 GHz) to treat hemodynamic disorders accompanying some of pathologic diseases. VL - 1 IS - 1 ER -
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