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Comparative estimation modifying action of microwave radiation of natural and anthropogenic origin on staphylo-coccus aureus


S.N. Darovskih – Dr.Sc.(Eng.), Professor, Head of Department of Information and Communication Technologies, South Ural State University (Chelyabinsk). E-mail: Ju.S. Shishkova – Dr.Sc.(Med.), Professor, Department of Microbiology, Virology, Immunology and Clinical Laboratory Diagnostics, South Ural State Medical University (Chelyabinsk). E -mail: N.V. Vdovina – Senior Lecturer, Department of Information and Communication Technologies, South Ural State University (Chelyabinsk). E-mail: E.V. Shishkova – South Ural State University (Chelyabinsk). E-mail:

A comparative analysis of the impact of the simulated natural and anthropogenic electromagnetic radiation on the morphology, viability, saccharolytic activity and antibiotic sensitivity of Staphylococcus aureus. To conduct these studies was designed generator microwave oscillations, which allows software to create different modes of generation from broadband (complex modulated in frequency and amplitude) oscillations with variable frequency deviation to narrowband (monofrequency) oscillations in the frequency range (4,08 - 4,34) GHz con-trolled transmission power (4 mW to 27 mW). The research found that mono frequency microwave radiation (model radiation of anthropogenic origin) are one of the factors of accelerated reproduction of Staphylococcus aureus and its antibiotic properties of the gain in relation to certain types of antibiotics. Determined that broadband (model radiation of natural origin) and anthropogenic electromagnetic radiation do not affect cell shape and tinctorial properties of Staphylococcus aureus, does not have a direct microbicides effect, and under the influence of natural and anthropogenic electromagnetic radiation occurs grouping cells Staphylococcus aureus. The observed enhancement saccharolytic function of Staphylococcus aureus under microwave radiation of natural origin, it brings in its biochemical properties with helpful organism saccharolytic bacteria (bifidobacteria and lacto-bacilli, entorokokki). This shows the viability of using EMR with natural frequency-time structure to weaken not only its pathogenic properties of Staphylococcus aureus, but other strains of microorganisms.


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June 24, 2020
May 29, 2020

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