The impact of systemic homeostatic regulator — associates of peroxide anion radicals on the activity of microorganisms

The analysis of scientific publications on the regulatory effect of peroxide anion radicals and electronic activation of the body on the function of osteogenesis and associated systems of the body is presented according to the following information sources: Scopus database, MEDLINE, Web of Science, eLibrary.ru, Google academy for the availability of peer-reviewed original and review publications on the key words: osteogenesis, musculoskeletal system, reoxygenation, hormonal regulators, electron-donor activity, associated water phase, rehabilitation, on the basis of which search phrases on the research topic were formed. Based on a number of evidencebased scientific studies on the regulatory effect of peroxide anion radicals and electronic activation on biological processes (changes in the functional state of the liver, hematological parameters, macro- and microelement composition of liquid media and animal organs, the course of reparative processes in damaged tissues), a biophysical mechanism of systemic homeostatic action of oxygen anion radicals is proposed. This mechanism consists in antihypoxic and detoxifying action during reoxygenation of ischemic tissues, in increasing proliferative activity and shifting osteogenesis regulators (sRANKL-OPG system) towards osteoprotegerin. At the same time, the processes of binding of intracellular free calcium and trace elements in osteoblasts, activation of the macrophage reaction, neoangiogenesis and restoration of myeloid tissue in the area of bone breakdown occur. It is shown that the use of micellar mechanoactivated calcium carbonate as a source of formation of peroxide anion radicals in an aqueous medium leads to a decrease in the redox state and stabilization of cell pH, activation of mitochondrial activity accompanied by intensification of metabolism, including the exchange of micro- and macroelements, improvement of the functions of the antioxidant defense system and nonspecific immunity of the body, stabilization of physiological and biochemical parameters and the functional state of internal organs.

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Electron-donor and regulatory effects of superoxide anion radicals on the processes of osteogenesis and bone remodeling: literature review

Rakhmanin

Fesyun

Yakovleva

2022

Rossijskij osteopaticheskij zhurnal

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Homeostatic effect of silicon waters

Yakovleva

Nikiforova

2023

Hygiene and Sanitation

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Introduction. There are considered drinking and mineral waters in terms of homeostatic action (hormesis) of water-soluble silicon and the trends of its biological activity and possible negative effects on the human body. Materials and methods. In studied waters the concentration of the systemic homeostatic regulator – peroxide anion-radical was measured by the kinetic chemiluminescent method. The water biological activity was assessed by the extrasubstrate synthesis of adenosine triphosphate by the ATP synthase of microorganisms E.Coli K12 TG1(pF1) with built-in genes for the complete CDABE lux operon of the bacteria V. fischeri 6E luminescent system. The parametrization of the water structural-energy state was carried out according to the cryophysical capillary technique. The study object were low-mineralized drinking water packed in 9-liter polymer containers with an initial silicon content of 12 mg/dm3. Results. The hormetic effect of silicon waters due to self-induction of peroxide anion radicals in water manifests itself in the form of mitochondrial activity and enzyme complexes stimulation, accompanied by activation of the central nervous system, maintenance of nonspecific immunity, and the reproductive system functioning. The degree of silicon water beneficial effect due to the electron-donor and regulatory action of peroxide anion-radicals associates, depends on activation processes during the production and drinking water storage. Limitations. Recommendations for maintaining the biological activity of silica waters do not go beyond the limits established by existing regulatory documents on the safety of drinking waters. Conclusion. The levels of radical anion peroxide production (2.6–5.2 μg/dm3), obtained in the course of this study, correspond to the maximum changes in the biological activity of water activation in the range of 1.4–3.0 (relative to the control – distilled water) in the mode of implementing the conditions of non-local activation. With long-term storage in a polymer container, the ability to activate is lost – such water becomes biologically inert.

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The impact of systemic homeostatic regulator — associates of peroxide anion radicals on the activity of microorganisms

Cited by 2 publications

References 11 publications

Electron-donor and regulatory effects of superoxide anion radicals on the processes of osteogenesis and bone remodeling: literature review

Electron-donor and regulatory effects of superoxide anion radicals on the processes of osteogenesis and bone remodeling: literature review

Homeostatic effect of silicon waters

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