ПРОФІЛАКТИКА ТА ДОПОМІЖНЕ ЛІКУВАННЯ ГОСТРИХ РЕСПІРАТОРНИХ ЗАХВОРЮВАНЬ ДІТЕЙ І ДОРОСЛИХ ЗА ДОПОМОГОЮ БІОПТРОН-ПАЙЛЕР-СВІТЛА

S. A. Gulyar

doi:10.11603/mie.1996-1960.2019.4.11016

Authors

S. A. Gulyar Bogomoletz Institute of Physiology, National Academy of Sciences of Ukraine Zepter International Medical Innovation Center

DOI:

https://doi.org/10.11603/mie.1996-1960.2019.4.11016

Keywords:

influenza, colds, acute respiratory diseases, polarized light, Bioptron, Medolight, photobiomodulation, free radicals, fullerene, hypoxia, oxidation balance

Abstract

Background. The review contains brief information on new aspects of physiotherapy (photobiomodulation) using polarized light of the Bioptron device. The palette of its active biophysical components includes 12 types of poly- and monochromatic light from halogen and LED sources. Their anti-inflammatory, analgesic, reparative, immune-normalizing, antimicrobial and other efficacy have been proven experimentally and clinically. Among the main indications are also various types of pathology of the skin and mucous membranes, treatment of wounds and the consequences of injuries, optimization of rehabilitation processes and other conditions subject to physiotherapy treatment.

Materials and methods. Results. Additional specific therapeutic possibilities arise due to the creation of monochromatic (quasilaser) ranges, light modifications with fullerene with toroidal polarization and an extended range with the addition of near-ultraviolet light. PILER-light acts both locally on cells and photosensitive molecules, normalizing the electromagnetic balance in them, and systemically through influence on blood structures and acupuncture points.

The bactericidal and antiviral efficacy of BIOPTRON light has been experimentally proven. During the cold season, non-invasive prophylaxis and treatment of colds with the help of BIOPTRON light therapy is essential to reduce negative manifestations without pharmacological burden on the body. The protocols for the prevention and treatment of acute respiratory diseases have been tested. Among personal protective equipment, it is advisable to reduce the light load and create mechanical obstacles to protect the eyes by using glasses with fullerene Alters.

Conclusions. The main feature of ZEPTER technologies as a whole is their health-saving essence, realized through multilevel antioxidant protection. All this is a necessary component of the measures used in case of acute respiratory diseases.

References

Divocha V. A., Mikelashvili M. T., Kosteva T. K. (2009). A study of the effects of polarized light generated by the Bioptron device at lethal virus infection. Anthology of Light Therapy. Medical Bioptron Technologies. Kyiv, Bogomoletz Institute of Physiology NAS of Ukraine, 461-9. [In Russian].

Gulyar, S. A., ed. (2009). Anthology of Light Therapy. Medical Bioptron Technologies. Kyiv, Bogomoletz Institute of Physiology NAS of Ukraine, 1-1024. [In Russian].

Gulyar S. A. (2018). From Polarization to Hyperpolarization: New Aspects of Light Therapy. Proc. of the XLIX International Scientific and Practical Conference and 22nd Gamaleya's Readings. Oct. 3-7, 2018. Hajduszoboszlo, 157-162.

Gulyar S. A. (2018). Accents of the human body electromagnetic balance regulation system. Photobiol. and Photomed. 24, 52-68.

Gulyar S. A. (2019). Medical-physiological strategy of the ZEPTER company and the role of BIOPTRON devices in its realization. Anthology of Light Therapy. Medical Bioptron Technologies. Kyiv, Bogomoletz Institute of Physiology NAS of Ukraine, 28-43. [In Russian].

Gulyar S. A., Kirilenko E. K. (2002). Water of the third millennium: novel technologies of purification and analysis of quality. ZEPTER News. 16, 10-12. [In Russian].

Gulyar S. A., Limansky Yu. P. (2006). Static magnetic fields and their application in medicine. Kyiv: BIPh NAS of Ukraine, 1-320. [In Russian].

Gulyar S. A., Stepanova E. I., Kolpakov I. E., Vdovenko V. Yu., Kondrashova V.G. (2009). Estimation of combined therapy effectiveness with PILER-light and antioxidant the Sixth Element for children exposed to ionizing radiation after Chernobyl accident. Anthology of Light Therapy. Medical Bioptron Technologies. Kyiv, Bogomoletz Institute of Physiology NAS of Ukraine, 443-52. [In Russian].

Gulyar S. A., Kolpakov I. E. (2009). Importance of the zone of PILER-light application for the effectiveness of light therapy. Anthology of Light Therapy. Medical BioptronTechnologies. Kyiv, Bogomoletz Institute of Physiology NAS of Ukraine, 304-311. [In Russian].

Gulyar S. A., Kosakovskyi A. L., eds. (2011). Bioptron-PILER-Light Application in Medicine (2nd ed.). Kyiv: Bogomoletz Institute of Physiology NAS of Ukraine, 1-256. [In Russian].

Gulyar S. A., Tamarova Z. A. (2017). Modification of Polychromatic Linear Polarized Light by Nanophotonic Fullerene and Graphene Filter Creates a New Therapeutic Opportunities. J. of US-China Medical Science,14 (5), 173-91.

Gulyar S. A., Tamarova Z. A., Kirilenko Ye. K., Filimonova N. B., Makarchuk N. Yu., Krivdiuk Yu. N. (2019). Physiological effects of light with spatial structure converted by fullerene. Medical Informatics and Engineering, 45 (1), 39-58. [In Russian].

Gulyar S. A., Filimonova N.B., Makarchuk M. Yu., Kryvdiuk Y. N. (2019). Ocular Influence of Nano-Modified Fullerene Light: 1. Activity of Default Networks of the Human Brain. J of US-China Medical Science, 16 (2), 1-15.

Khan M. A. (2001). Application of BIOPTRON device in pediatrics. Methodical recommendations. Moscow, 1-24. [In Russian].

Kolpakov I. E., Vdovenko V. Yu. (2009). Effects of BIOPTRON-PILER-light on biochemical parameters of blood in children living in regions with radioactive contamination. Anthology of Light Therapy. Medical BioptronTechnologies. Kyiv: Bogomoletz Institute of Physiology NAS of Ukraine, 502-6. [In Russian].

Koruga D. (2017). Hyperpolarized Light: Fundamentals of Nano Medical Photonics. Belgrade: Zepter World Book, 1-306. [In Serbian and in English].

Kosakovskyi A. L. Gulyar S. A., Kosakivska I. A, Grushetska N. P., Shukh L. A., Tkachenko Yu. V. (2018). Experience of using red and blue led light with infrared component in the treatment of ear, throat and nose diseases in children. Modern pediatrics, 89 (1), 73-9.

Limansky Y. P., Tamarova Z. A., Gulyar S. A. (2006). Suppression of Pain by Exposure of Acupuncture Points to Polarized Light. Pain Res. Manag. 11 (1), 49-57.

Pantyo V. V., Koval G. M., Pantyo V. I., Gulyar S. A. (2017). Effect of LED radiation of different

wavelengths on the growth rate of Staphylococcus aureus. ScienceRise: Biological Science, 7 (4), 16-20; 43-45.

Pantyo V. V., Koval G. M., Pantyo V. I., Danko E. M., Gulyar S. A. (2019). Influence of LED radiation on the Staphylococcus aureus sensitivity to antibiotics. Photobiology and Photomedicine, 16 (1), 50-5.

Tamarova Z. A., Limansky Y. P., Gulyar S. A. (2009). Antinociceptive effects of color polarized light in animal with formalin test. Fiziol. J. 55 (3), 81-93. [In Ukrainian].

Tsodikova O. A., Biryukova S. V., Manina Z. N., Rybalka I. Y., Bobeiko A. E. (2004). Influence of polarized electromagnetic waves of the light range of the BIOPTRON device on the state of mucosal immunity of the upper respiratory tract of frequently ill children. Problems of medical science and education, 2, 27-30. [In Russian].

Tsodikova O. A., Shkiryak-Nizhnik Z. A. (2009). Sanogenic method for correction of disordered adaptive reactions in children with polarized light. Anthology of Light Therapy. Medical Bioptron Technologies. Kyiv, Bogomoletz Institute of Physiology NAS of Ukraine, 671-683. [In Russian].

PREVENTION AND ADJUVANT TREATMENT OF ACUTE RESPIRATORY DISEASES OF CHILDREN AND ADULTS WITH BIOPTRON-PILER-LIGHT

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