The microelement status of residents of the Vilyui region

The entire territory of the Republic of Sakha (Yakutia) is located in the zone of extreme climate. Harsh and continental climatic factors of the North slow the processes of self-healing and self-purification of the natural landscapes. The decrease in the rates of biological and chemical transformations in the aquatic and terrestrial ecosystems leads to a significant accumulation of chemical components of anthropogenic origin in them. The adverse effects of the habitat were little studied until the end of the 20th century. The relationships between chemical heterogeneity of the biosphere and the occurrence of various changes in the human body and even diseases have been found. Biogeochemical factors (microelements of soil, water, air, products of biotic and abiotic origin, industrial and agricultural waste) have a significant impact on the normal functioning and functional reserves of the human body. Recent estimates of the WHO attributes 50 % of health outcomes of the population to behaviour, 20 % to genetics, 20 % to social and physical environment, 10 % to the quality of medical care. In this regard, the aim of the work was to study the microelement status in the biological media (hair, blood) of residents of the Republic of Sakha (Yakutia) living in the basins of the Vilyu and Markha rivers.

1. Agadzhanyan N.A., Gomboeva N.G. Adaptation, ecology and health of the population of various ethnic groups of Eastern Transbaikalia. Novosibirsk: Publishing House of the SB RAS, Chita: Transbaikal State University; 2005. 152 p. (In Russ.)

2. Alekseev V.P., Krivoshapkin V.G., Makarov V.N. Atlas: geography of Vilyuisk encephalomyelitis. Yakutsk; 2000. 107 p. (In Russ.)

3. Baranov A.A., Albitskiy V.Yu., Namazova-Baranova, Terletskaya R.N. The state of children’s health in modern Russia. M.: Publishing House «Pediatr»; 2018. 120 p. (In Russ.)

4. Beketova G.V., Goryacheva I.P. Zinc and its impact on human health in the context of the COVID-19 pandemic: what’s new? Pediatrics. Eastern Europe. 2021;9(1):8–20. (In Russ.)

5. Grigorieva A.A. Heavy metals as a factor of environmental pollution in cryolithozone conditions. Regional Environmental Issues. 2018;(6):51–58. (In Russ.)

6. Ivanov S.I., Podunova L.G., Skachkov V.B., Tutelyan V.A., Skalnyy A.V., Demidov V.A., Skalnaya M.G., Serebryanskiy Ye.P., Grabeklis A.R., Kuznetsov V.V. Determination of chemical elements in biological media and preparations by atomic emission spectrometry with inductively coupled plasma and mass spectrometry: Guidelines (MUK 4.1.1482-03, MUK 4.1.1483-03). M.: FTsGSN Rossii; 2003. 56 p. (In Russ.)

7. Kovalskiy V.V. Geochemical ecology. M.: Nauka; 1974. 300 p. (In Russ.)

8. Kopach A.Y., Fedoriv O.Y., Melnyk N.A. Effects of the influence of copper and zinc on living organisms (literature review). Hygiene and Sanitation. 2021;100(2): 172–177]. (In Russ.) https://doi.org/10.47470/0016-9900-2021-100-2-172-177

9. Krivoshapkin, V.G., Mordovskaya V.I. Changing the traditional diet as a risk factor for the formation of chronic non-communicable diseases in the indigenous population of the Republic of Sakha (Yakutia). Proceedings of the 13th International Congress on Circumpolar Medicine. Novosibirsk: SO RAMN; 2006:151–152. (In Russ.)

10. Muzyko E.A., Laschenova L.I., Tkacheva G.A., Perfilova V.N. Imbalance of trace elements during pregnancy as a factor of the development of pathologies in children. Trace elements in medicine. 2021;22(3):15–26. (In Russ.)]. https://doi.org/10.19112/2413-6174-2021-22-3-15-26

11. Savvinov D.D., Sazonov N.N. Trace elements in northern ecosystems. Novosibirsk: Nauka; 2006. 208 p. (In Russ.)

12. SanPiN 2.1.3684-21 «Sanitary and epidemiological requirements for the maintenance of urban and rural settlements, for water bodies, drinking water and drinking water supply, atmospheric air, soils, residential premises, operation of industrial, public premises, organization and conduct of sanitary and anti-epidemic (preventive) measures». (In Russ.)] https://base.garant.ru/400289764/

13. СSkalnyy A.V. Medical elementology. Study guide / A.V. Skalnyy, M.G. Skalnaya, A.A. Kirichuk, A.A. Tinkov. M.: Izd-vo RUDN; 2018. 222 p. (In Russ.)

14. Skalnaya M.G. Hygienic assessment of the influence of mineral components of the diet and habitat on the health of the population of the metropolis: Abstr. … Diss. Doct. Sci., Moscow; 2005. 42 p. (In Russ.)

15. Skalnyy A.V., Skalnaya M.G., Dubovoy R.M., Demidov V.A., Notov O.S. Detection and outpatient correction of mineral metabolism disorders. Methodological recommendations. ROSMAN. Mosсow: OOO «Petrorush»; 2009. 41 p. (In Russ.)

16. Tutelyan V.A., Knyazhev V.A., Khotimchenko S.A., Golubkina N.A., Kushlinskiy N.Ye., Sokolov Ya.A. Selenium in the body human: metabolism, antioxidant properties, role in carcinogenesis. M.: RAMN; 2002. 224 p. (In Russ.)

17. Physical development of children and adolescents of the Russian Federation: textbook. V.R. Kuchma, N.A. Skoblina, O.Yu. Milushkina [et. al.]. Issue VII. M.: Izd-vo «Litterra», 2019. 176 p. (In Russ.)

18. D’Oria L., Apicella M., De Luca C., Licameli A., Neri C., Pellegrino M., Simeone D., De Santis M. Chronic exposure to high doses of selenium in the first trimester of pregnancy: Case report and brief literature review. Birth Defects Res. 2018; 110(4):372–375. https://doi.org/10.1002/bdr2.1148

19. Duydu Y., Başaran N., Üstündağ A., Aydın S., Yalçın C.Ö., Anlar H.G., Bacanlı M., Aydos K., Atabekoğlu C.S., Golka K., Ickstadt K., Schwerdtle T., Werner M., Meyer S., Bolt H.M. Birth weights of newborns and pregnancy outcomes of environmentally boron-exposed females in Turkey. Arch. Toxicol. 2018;92(8):2475–2485. https://doi.org/10.1007/s00204-018-2238-4

20. Fedoriv O.E., Kopach О.Е., Melnyk N.A., Lototska O.V., Lototskyy V.V. Influence of nanoparticles of lead on the organizm of suspicious animals when using water with content of sodium and sunpate stearates. World Med. Biol. 2019; 68(2):199–204. http://dx.doi.org/10.26724/2079-8334-2019-2-68-199-204

21. Herlin M., Broberg K., Igra A.M., Li H., Harari F., Vahter M. Exploring telomere length in mother-newborn pairs in relation to exposure to multiple toxic metals and potential modifying effects by nutritional factors. BMC Medicine. 2019;17(1):77. https://doi.org/10.1186/s12916-019-1309-6

22. Hjelm C., Harari F., Vahter M. Pre- and postnatal environmental boron exposure and infant growth: Results from a motherchild cohort in northern Argentina. Environmental Research. 2019;171:60–68. https://doi.org/10.1016/j.envres.2019.01.012

23. Ovayolu A., Ovayolu G., Karaman E., Yuce T., Ozek M.A., Turksoy V.A. Amniotic fluid levels of selected trace elements and heavy metals in pregnancies complicated with neural tube defects. Congenital Anomalies (Kyoto). 2019;60(5):136–141. https://doi.org/10.1111/cga.12363

24. Shu Y., Wu M., Yang S., Wang Y., Li H. Association of dietary selenium intake with telomere length in middle-aged and older adults. Clinical Nutrition. 2020; 39(10):3086–3091. https://doi.org/10.1016/j.clnu.2020.01.014

25. Vahter M., Broberg K., Harari F. Placental and Cord Blood Telomere Length in Relation to Maternal Nutritional Status. The Journal of Nutrition. 2020; 150(10):2646–2655. https://doi.org/10.1093/jn/nxaa198