Труды КНЦ (Естественные и гуманитарные науки) вып.1/2024(3)

Труды Кольского научного центра РАН. Серия: Естественные и гуманитарные науки. 2024. Т. 3, № 1. С. 160-169. Transactions of the Kola Science Centre of RAS. Series: Natural Sciences and Humanities. 2024. Vol. 3, No. 1. P. 160-169. 19. Brooks W. A., Santosham M., Naheed A., et al. Effect of weekly zinc supplements on incidence of pneumonia and diarrhoea in children younger than 2 years in an urban, low-income population in Bangladesh: randomised controlled trial. Lancet, 2005, Sep 17-23; 366 (9490): 999-1004. doi:10.1016/S0140-6736(05)67109-7. 20. Laffaye G., Epishev V. V., Naumova K. A., Delafontaine A. How to prevent COVID-19 by means of a daily micronutrition protocol? An overview. Human. Sport. Medicine, 2020, Vol. 20, N 4, pp. 127-138. 21. Damo S. M. , Kehl-Fie T. E., Sugitani N., et al. Molecular basis for manganese sequestration by calprotectin and roles in the innate immune response to invading bacterial pathogens. Proc Natl Acad Sci USA , 2013, Mar 5; 110 (10): 3841-6. doi:10.1073/pnas.1220341110. 22. Gammoh N. Z. and Rink L. (2017). Zinc in Infection and Inflammation. Nutrients, 9, Article No. 624. https://doi.org/10.20944/preprints201705.0176.v1. 23. Romanov A. O., Sharipova M. M., Popova I. A., Arkhangelskaya A. N., Gurevich K. G., Shimanovsky N. L. Trace elements: the role in the development of severe forms of COVID-19 and the possibility of correction. Infectious diseases: news, opinions, training, 2022, Vol. 11, No. 4, pp. 91-98. (In Russ.). doi :https://doi.org/10.33029/2305-3496-2022-11-4-91-98. 24. Skalny A. V., Timashev P. S., Aschner M. et al. Serum zinc, copper, and other biometals are associated with COVID-19 severity markers. Metabolites, 2021, Vol. 11, N 4, p. 244. (In Russ.). 25. Skalny A. V., Rink L., Ajsuvakova O. P., Aschner M. et al. Zinc and respiratory tract infections: Perspectives for COVID-19 (review). Int. J. Mol. Med., 2020, Vol. 46, pp. 17-26. 26. Vogel-Gongzales M., Tallo-Parra M., Herrera-Fernandez V., Perez-Vilaro G. et al. Low zinc levels at admission associates with poor clinical outcomes in SARSCoV-2 infection. Nutrients, 2021, Vol. 13, N 2. p. 562. 27. Damo S. M., Kehl-Fie T. E., Sugitani N., et al. Molecular basis for manganese sequestration by calprotectin and roles in the innate immune response to invading bacterial pathogens. Proc Natl Acad Sci USA , 2013, Mar 5; 110 (10): 3841-6. doi: 10.1073/pnas.1220341110. 28. Fedoseev G. B. Mechanisms o f bronchial obstruction. Saint Petersburg, 1995, 333 p. (In Russ.). 29. Kaktursky L. V. Vanadium and other trace elements. Arch. pat. 1990. No. 52 (6). pp. 76-78. (In Russ.). 30. Preer S. M. Trace elements and immunological reactivity o f the organism. Tomsk, 1979, 167 p. (In Russ.). 31. Timakin N. P. Biological role of trace elements, electrolytes and their importance in medicine. Materials o fthe Scientific Conference. Tomsk med. in-ta and TSNIL. Tomsk, 1977, pp. 5-20. (In Russ.). 32. Barnett J. B., Hamer D. H., Meydani S. N. Low zinc status: a new risk factor for pneumonia in the elderly? Nutr Rev., 2010; 68 (1): 30-7. doi: https://doi.org/10.1111/j.1753-4887.2009.00253. 33. Ashirmetov A. H., Mavlyanov I. R., Mavlyanov Z. I., Zharylkasynova G. J. COVID-19: Known drugs, new opportunities. Health risk analysis, 2020, No. 4, pp. 170-180. (In Russ.). 34. Chandrangsu P/, Rensing C/, Helmann J. D. Metal homeostasis and resistance in bacteria. Nat Rev Microbiol., 2017, Jun; 15 (6):338-350. doi: 10.1038/nrmicro.2017.15. 35. Chen Z., Wang X., Yang F., et al. Molecular Insights into Hydrogen Peroxide-sensing Mechanism of the Metalloregulator MntR in Controlling Bacterial Resistance to Oxidative Stresses. J Biol Chem., 2017, Mar 31; 292 (13): 5519-5531. doi:10.1074/jbc.M116.764126. 36. Zogzas C. E., Mukhopadhyay S. Inherited Disorders of Manganese Metabolism. Adv Neurobiol., 2017; 18: 35-49. doi:10.1007/978-3-319-60189-2_3. 37. Erikson K. M., Syversen T., Aschner J. L., Aschner M. Environment. Toxicol. and Pharmacol., 2005, Vol. 19, pp. 415-421. 38. Au K., Benedetto A., Aschner M. Neurotoxicology, 2008, Vol. 29 (4), pp. 569-576. 39. Gabunia G. S. On the role of manganese in the etiology of pneumonia. (In Russ.). The link is active 09.2023 https://cyberleninka.ru/viewer_images/19325288/f/1.png. 40. Dunlap W. M., James G. W., 3rd, Hume D. M. (1974). Anemia and neutropenia caused by copper deficiency. Ann. Int. Med., 80, 470-476. 41. Zidar B. L., Shadduck R. K., Zeigler Z., Winkelstein A. (1977). Observations on the anemia and neutropenia of human copper deficiency. Am. J. Hematol., 3, 177-185. © Никифорова Н. А., Карапетян Т. А., Доршакова Н. В., 2024 168

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