Innovative electrical unit for treatment of animals by direct electrochemical oxidation of blood
Автор: Rudenok V., Kondrateva N., Bolshin R., Krasnolutskaya M.
Журнал: Агротехника и энергообеспечение @agrotech-orel
Рубрика: Электротехнологии и электрооборудование в сельском хозяйстве
Статья в выпуске: 4 (33), 2021 года.
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The electrical installation for the treatment of staphylococcal infections of rabbits, dogs and calves, allowing direct electrochemical oxidation of blood is proposed. The setup consists of an extended platinum wire electrode up to 20 cm long, an adjustable DC rectifier, and two auxiliary electrodes made of electrically conductive material. The process of direct electrochemical oxidation of blood occurs on the surface of this platinum wire electrode inserted along the axis of the blood vessel. Preliminary laboratory tests have been carried out in a glass tube. In the experiments, a solution containing a culture of staphylococci have been poured into a test tube. After the current passed through the system, staphylococci died. The atomic oxygen, which circulates during the spontaneous decomposition of the hypochlorite ion is the reason for the death of staphylococci was. In the anodically polarized region, the chlorine ion is oxidized to the chlorine atom. Two chlorine atoms form a molecule that interacts with water in a disproportionation reaction, forming a hypochlorite ion. Unstable hypochlorite decomposes to form atomic oxygen. Atomic oxygen is harmful to bacteria, viruses and their waste products. Host cells are genetically protected against the effects of atomic oxygen. The aim of our study is to develop an electrical installation for the treatment of infections in animals using the technology of direct electrochemical blood oxidation. The use of the proposed electrical installation have given positive results in the treatment of rabbits from staphylococcal infection, in the treatment of dogs and calves from pneumonia.
Electrical installation for the treatment of infections of animals, direct electrochemical oxidation of blood
Короткий адрес: https://sciup.org/147237032
IDR: 147237032
Список литературы Innovative electrical unit for treatment of animals by direct electrochemical oxidation of blood
- Bolshin R.G Irradiating set with uv diodes and microprocessor system of automatic dose control / Bolshin R.G., Kondratieva N.P., Krasnolutskaya M.G. / Light & Engineering. 2019. Т. 27. № 6. С. 127-132. DOI: 10.33383/2018-058
- Bolshin, R.G. Irradiator installation with uv diodes and microprocessor system of automatic dose control / Kondratyeva N.P., Krasnolutskaya M.G. // Lighting engineering. 2019.No. 2.P. 78-81.
- Drackley J. K. Biology of Dairy Cows During the Transition Period: the Final Frontier? Journal of Dairy Science 1999. Vol. 82. No. 11. P. 2259–2273
- Iwersen M., Falkenberg U., Voigtsberger R., Forderung D., Heuwieser W. Evaluation of an electronic cowside test to detect subclinical ketosis in dairy cows. Journal of Dairy Science. 2009 Vol. 92. No. 6. P. 2618–2624
- McArt J.A., Nydam D.V., Ospina P.A., Oetzel G.R. А field trial on the effect of propylene glycol on milk yield and resolution of ketosis in fresh cows diagnosed with subclinical ketosis. Journal of Dairy Science.. 2011 Vol. 94. No. 12. P. 6011–6020
- Kanz P., Drillich M., Klein-Jöbstl D., Mair B., Borchardt S., Meyer L., Schwendenwein I., Iwersen M. Suitability of capillary blood obtained by a minimally invasive lancet technique to detect subclinical ketosis in dairy cows by using 3 different electronic hand-held devices. Journal of Dai Science. 2015. Vol. 98. No. 9. P. 6108–6118
- Kaufman E.I., LeBlanc S.J., McBride B.W., Duffield T.F., DeVries T.J. Short communication: Association of lying behavior and subclinical ketosis in transition dairy cows. Journal of Dairy Science.. 2016 Vol. 99. No. 9. P. 7473–7480
- Kondratyev, N.P. DIGITAL LIGHTING TECHNOLOGIES FOR BEHAVIORAL CONTROL GALLERIA MELLONELLA / Kondratyeva N.P., Buzmakov D.V., Ilyasov I.R., Bolshin R.G., Krasnolutskaya M.G. // Agricultural machines and technologies. 2021. T. 15. No. 1. S. 78-83. DOI: 10.22314 / 2073-7599-2021-15-1-78-83
- Kondrateva N.P., Ovchukova S.A., Kirillov N.K., Belov V.V., Bolshin R.G. Progressive electrotechnologies for increasing productivity of animals. Bulletin of Kazan State Agrarian University 2018. Vol. 13. No. 2 (49). P. 114-117 DOI 10.12737/article_5b3508799af6e2.76526007
- Tate J., Ward G. 2004 Interferences in Immunoassay. Clin Biochem Rev. Vol. 25. P. 105-120
- Overton T. R., McArt A. A., Nydam D. V. A 100-Year Review: Metabolic health indicators and management of dairy cattle. Journal of Dairy Science. 2017 Vol. 100. No. 12. P. 10398–10417
- Ovchukova, S.A. Energy saving in lighting technologies of agricultural productioN / Ovchukova S.A., Kondratieva N.P., Kovalenko O.Y. // Light & Engineering. 2021. Т. 29. № 2. С. 21-25. DOI: 10.33383/2020-039
- Rudenok V.A., Zakomyrdin A.A., Marasinskaya E.I... Synthesis of sodium hypochlorite preparation by direct electrochemical blood oxidation. Actual problems of veterinary pharmacology, toxicology and pharmacy: Materials of the III Congress of pharmacologists and toxicologists of Russia. St. Petersburg, 2011 P.390-394.
- Rudenok V.A., Zakomyrdin A.A., Marasinskaya E.I.. A method for detoxifying an organism and a device for implementing the method: pat. 2229300. Russian Fed., 2013. 7А61К 33/14
- Rudenok V.A., Alimov A.M. Zakomyrdin A.A., Milaev V.B.. Electrochemical synthesis of hypochlorite and hydrogen in the blood stream. Proceedings of the Kuban State Agrarian University. Publishing house of the Kuban State Agrarian University. Krasnodar 2013. № 43. P.181-182
- Rudenok V.A., Alimov A.M. Zakomyrdin A.A Blood electrolysis device: pat. 2566199. Russian Fed., № 2013 126340/14