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    VIBRATIONAL SPECTROSCOPY OF NANOBIOSYSTEMS AND CONCEPT OF RESONANCE THERAPY
    Paata Kervalishvili1;
    1GEORGIAN TECHNICAL UNIVERSITY, Tbilisi, Georgia;
    PAPER: 198/Mineral/Regular (Oral) OS
    SCHEDULED: 11:30/Thu. 30 Nov. 2023/Sunflower



    ABSTRACT:

    Bioparticles, like other biological objects, are characterized not only by different biological properties, but also purely physical. Physical parameters can be include their mass, speed of movement, mechanical, electrical, magnetic  characteristics, etc. Since the biosystems like viruses travel much less than the speed of light, are small in size and mass, vibrate with a certain frequency relative to a fixed coordinate system

    Spectroscopic methods have the characteristic of providing fast results and reliable information related to the composition of the samples. The studies presented have shown promising results in a field of science that needs to be better explored. It has been shown that multivariate analysis techniques are of great importance to analyze spectroscopic data, providing the potential to identify and classify biological samples.[1-3]. We do hope that with advancement in this field of study, spectroscopic methods and tools will be used in bio medicine in the nearest future. Methods of light therapy of different diseases based on estimation of EM field characteristics and resonant wave ranges based on computer simulation of nanobioparticles characterization will be widely implemented, and possibility of determination of resonant (own) frequencies of entire system of molecules including virions will be a key point for that. Recent frontiers in technology are exploring the possibility of using external excitations to vibrate a virus to its death. The genetic material of virus is DNA/RNA enclosed within the protective protein shell (Capsid). Every cell in human body has a natural tendency to vibrate at frequency known as the natural frequency, and so the virus. Natural frequency values of these vibrations are very high compared to healthy cells, and depend on the molecular structure and differ from virus to virus.

    In our opinion the concept and relevant methods of resonance therapy will be basis of different viral deceases treatment in the nearest future of practical medicine.



    References:
    [1] Kervalishvili P., Bzhalava T, Computer Simulation Study of Oscillation Mechanisms and Physical Properties of Nanosized Biostructures, Published in book: Innovative Smart Healthcare and Bio-Medical Systems, CRC Press – Taylor and Francis, New York, 2020, Chapter 6, 8 pages.<br />[2] Tamar Berberashvili, Paata Kervalishvili. Experimental Methods of Investigation of Vibrational Properties of Nanobioobjects. The international scientific conference: Modern research methods of bionanoagents, RMB-2021, Batumi, Georgia, 24-26 November, 2021.<br />[3] Kervalishvili P. Study of Vibrational Properties of Viral Particles by Computer Modeling. Egyptian Computer Science Journal Vol. 45 No.2 May 2021, pp 44-65. ISSN-1110-2586