Amianto in Asia Centrale: revisione sistematica della letteratura
Contenuto principale dell'articolo
Keywords
Abstract
The discovery of the detrimental effects of asbestos on human health came long after its widespread use, with the first scientific evidence of asbestos-related diseases emerging in the late 19th and early 20th centuries. Despite efforts to ban its use, asbestos continues to be mined and used in Central Asia (as well as in Russia, China, and other countries). To gain a deeper understanding of the situation in Central Asia, we have conducted a systematic review of scientific literature on the use of asbestos, exposure assessment, and health consequences of asbestos exposure in this geographic area. This review encompasses studies about exposure assessments, epidemiological data, and biochemical or clinical surveys conducted in Kazakhstan, Uzbekistan, Tajikistan, Turkmenistan, and Kyrgyzstan. A total of 18 articles met the inclusion criteria, and their content is summarised in this review, which represents the first attempt to systematically examine research on asbestos and its impact on the health of workers and the general population in Central Asia countries, including literature published in Russian and English. The findings here highlighted the substantial limitations of the currently available knowledge about the impact of asbestos on health in this geographical area.
Riferimenti bibliografici
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15. Page MJ, McKenzie JE, Bossuyt PM, et al. Updating guidance for reporting systematic reviews: development of the PRISMA 2020 statement. J Clin Epidemiol. 2021;134:103-112. Doi: 10.1016/j.jclinepi.2021.02.003
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17. Trade Map – Trade statistics for international business development. Accessed December 26, 2022. https://www.trademap.org/Index.aspx
18. Ibraev SA, Otarov Ez, Zharylkasyn Z, Koigeldinova Sh S, Kulov DB, Kalishev MG. The possibility of predicting the pathology of the lungs in terms of the allowable work experience with chrysotile. Med Tr Prom Ekol. 2015;(3):8-11. (Available in Russian)
19. Korotenko VA, Kirilenko AV, Kurokhtin AV, Neronova TI, Vashneva NS, Yakovlev MV. Asbestos: the practice of application in Kyrgyzstan, problems and recommendations. Survey study. Published online 2011. (Available in Russian)
20. Ibraev SA, Pankin YN, Koygeldinova SS, et al. [Longitudinal study of differences between functional state of the body in workers at the chrysotile asbestos plant]. Gig Sanit. 2016;95(10):961-965. (Available in Russian)
21. Koigeldinova SS, Ibraev SA, Kasymova AK. State of lipid peroxidation in workers engaged into chrysotile-asbestos production. Meditsina truda i promyshlennaia ekologiia. 2015;(3):5-8. (Available in Russian)
22. Baselyuk LT, Bekpan AZ. Cytological analysis of smears of the nasal mucosa and buccal epithelium of the cheeks in workers of the chrysotile-asbestos production of JSC Kostanay Minerals. Toxicological Bulletin. 2011;(2 (107)):20-23. (Available in Russian)
23. Ibraev SA, Kazimirova OV, Eshmagambstova JA, Sydyrmanova TV, Kasymova AK. Clinical and functional characteristics of the state of the bronchopulmonary system under the influence of chrysotile-asbestos dust. Russ J Occup Heralth Indust. Ecol. 2008;(2):30-33. (Available in Russian)
24. Amanbekova AU, Azhimetova GN, Gazizov OM, Bekpan AZ. Characteristics of the immune system of the organism of workers in chrysotile-asbestos production. Bulletin of Karaganda University. Published online 2012:61.
25. Amanbekova AU, Ibrayeva LK, Azhimetova GN, Zhumabekova GS. Identification of induced mutagenesis by method of accounting of chromosomal aberrations at the workers of chrysotile asbestos production. Bulletin of Karaganda University. 2012;66(2):12-16.
26. Ibraev SA, Zharylkasyn ZZ, Otarov EZ, et al. Biochemical indicators in interstitial pneumofibrosis in workers with chrysotile. Bulletin of the Ural Medical Academic Science. 2015;(2):53-55. (Available in Russian)
27. Kurkin AV, Abaevna DZ, Khabibullaevna RD. Cytological study of buccal epithelium with different work experience in chrysotile-asbestos production. Russ. J Occup Heralth Indust Eco.. 2015;(3):16-18. (Available in Russian)
28. Koigeldinova S, Alexeyev A, Zharylkassyn Z, et al. Immune Status of Workers with Professional Risk of Being Affected by Chrysotile Asbestos in Kazakhstan. Int J Environ Res Public Health. 2022;19(21):14603.
29. Amanbekova AU, Sakiev KZ, Ibraeva LK, Otarbaeva MB. [Main results of research concerning asbestos-related diseases in Kazakhstan Republic]. Med Tr Prom Ekol. 2014;(8):13-18. (Available in Russian)
30. Koigeldinova SS, Ibraev SA, Bazelyuk LT, Kasymova AK, Talaspayeva AE. Phagocytosis of alveolar macrophages in experimental animals exposed to chrysotile-asbestos dust. Hygiene and Sanitation. 2021;100(1):73-76. (Available in Russian)
31. Ainagulova G, Bulgakova O, Ilderbayev O, Manekenova K, Tatayeva R, Bersimbaev R. Molecular and immunological changes in blood of rats exposed to various doses of asbestos dust. Cytokine. 2022;159:156016. Doi: 10.1016/j.cyto.2022.156016
32. Akhmadaliev MA, Askarov IR, Turdiboev IHU. Mineral-basalt fibers instead of carcinogenic asbestos-containing composite materials. Universum: engineering sciences. 2021;(8-2 (89)):17-20. (Available in Russian)
33. Altynbekov MB, Sembaev Z, Salimbaeva BM. Regional assessment of mesothelioma incidence in the Republic of Kazakhstan. In: State budgetary educational institution of higher professional education Tver State Medical Academy of the Ministry of Health of the Russian Federation; 2018:58-61. (Available in Russian)
34. Ibraev SA, Otarov EZ, Zharylkasyn LJ, Koigeldinova S. Controlled use of chrysotile through occupational risk development. Medicine of Kyrgyzstan. 2014;(4):88-90. (Available in Russian)
35. Ibraev S, Alekberov M, Zharylkassyn Z, Otarov E, Tilemisov М. [analysis of morbidity with temporary disability of workers in the ore beneficiation on chrysotile production]. Georgian Med News. 2018;(283):104-108. (Available in Russian)
36. Allen, Lucy P, Baez, Jorge, Stern, Mary Elizabeth C & George, Frank. (2017). Asbestos: economic assessment of bans and declining production and consumption. World Health Organization. Regional Office for Europe. https://iris.who.int/handle/10665/344114
37. Agency for Strategic planning, reforms of the Republic of Kazakhstan Bureau of National Statistics. Agency for Strategic planning and reforms of the Republic of Kazakhstan Bureau of National statistics. Published online 2022. (Available in Russian)
38. Kostanay Minerals JSC. Accessed November 18, 2022. https://km.kz/en/%D0%B3%D0%BB%D0%B0%D0%B2%D0%BD%D0%B0%D1%8F-english/
39. National Statistical Committee of the Kyrgyz Republic. The Population of Kyrgyzstan. Book II. Census, 2022. National Statistical Committee; 2023. (Available in Russian)
40. Kant Pipe - Slate Enterprise. About the company. Accessed November 18, 2022. https://kantslate.kg/en/about
41. About company | Industrial complex “Uralasbest.” Accessed October 19, 2023. https://www.uralasbest.ru/en/about-company
42. Kant Kurulush. Kant Kurulush. Accessed February 10, 2023. http://www.kurulush.kg/. (Available in Russian)
43. Agency on statistics under the President of the Republic of Uzbekistan. Permanent population. Accessed February 13, 2023. https://stat.uz/en/
44. The Observatory of Economic Complexity. Bilateral-product. Asbestos. Accessed February 13, 2023. https://oec.world/en/profile/bilateral-product/asbestos/reporter/
45. The Association of building materials industry enterprises of Uzbekistan. Database of building materials manufacturers. Asbestos-cement products.
46. Agency on statistics under the President of the Republic of Tajikistan. Population. Accessed February 13, 2023. https://www.stat.tj/en. (Available in Russian)
47. The World Bank Group. Country. Turkmenistan. Accessed February 13, 2023. https://data.worldbank.org/
48. Ibraev SA, Otarov EJ, Zeynidenov AK. Some data on the physicochemical properties of the surface of chrysotile-asbestos fiber. Bulletin of Karaganda University. 2011;2(62):3-7. (Available in Russian)
49. Ministry of Health of the Republic of Kazakhstan R of K. On Approval of Hygienic Standards for Atmospheric Air in Urban and Rural Settlements, in the Territories of Industrial Organizations; 2022. (Available in Russian)
50. Government of the Kyrgyz Republic. Hygienic Standards “Maximum Permissible Concentrations of Harmful Substances in the Air of the Working Zone.”; 2016. Accessed February 1, 2023. http://cbd.minjust.gov.kg/act/view/ky-kg/11958?cl=ky-kg. (Available in Russian)
51. World Health Organization. Determination of Airborne Fibre Number Concentrations: A Recommended Method, by Phase Contrast Optical Microscopy (Membrane Filter Method). World Health Organization; 1997:53.
52. Ibraev SA, Zharylkasyn ZhZh, Alekseev AV, Sokharev EYu. Lung tissue and the content of chrysotile dust in persons living in Zhitikara, in the section. In: NAO "MEDICAL UNIVERSITY OF KARAGANDY”.; 2022:85-87. (Available in Russian)
53. Golovachev SV. Some epidemiological aspects of malignant pleural mesothelioma. Vestnik KRSU. 2008;8(4):93. (Available in Russian)
54. Chen J, Wang C, Zhang J, et al. A comparative study of the disease burden attributable to asbestos in Brazil, China, Kazakhstan, and Russia between 1990 and 2019. BMC Public Health. 2022;22(1):2012. Published 2022 Nov 3. Doi: 10.1186/s12889-022-14437-6
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Kurzhunbaeva Z, Dzhusupov K, Spinazzè A, Visonà SD, Sulaimanova C, Kasymov O, et al. Amianto in Asia Centrale: revisione sistematica della letteratura. Med Lav [Internet]. 2024 Dec. 19 [cited 2024 Dec. 20];115(6):e2024042. Available from: https://mattioli1885journals.com/index.php/lamedicinadellavoro/article/view/15453
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Come citare
1.
Kurzhunbaeva Z, Dzhusupov K, Spinazzè A, Visonà SD, Sulaimanova C, Kasymov O, et al. Amianto in Asia Centrale: revisione sistematica della letteratura. Med Lav [Internet]. 2024 Dec. 19 [cited 2024 Dec. 20];115(6):e2024042. Available from: https://mattioli1885journals.com/index.php/lamedicinadellavoro/article/view/15453
