PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Health effects of long-term exposure to industrial dust in preparation plants of hard coal mines

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Statistical data on occupational diseases registered by the Institute of Occupational Medicine in Łódź indicates a renewed increase in the number of pneumoconiosis in Poland in recent years, especially in the section of PKD (Polish Classification of Business Activities) – mining. Simultaneously, in 2018, because of the implementation of Directives of the European Parliament and the Council of the European Union, changes were introduced to Polish legislation in the field of protection of workers against the risk of exposure to carcinogens or mutagens related to the respirable fraction of crystalline silica formed during work. Considering this information, the members of the Department of Safety Engineering of the Silesian University of Technology attempted to assess the dust hazard and the frequency of occurrence of respiratory diseases among the employees of the preparation plant of mine X exposed to the harmful effects of industrial dust produced in the work process. The following methods were used as part of the research: individual dosimetry, infrared spectrometry, directional interview, diagnostic tests, and spirometry. The obtained results made it possible to identify workstations with the highest exposure to the harmful effects of industrial dust and to recognize the impact of this action in the form of pathological changes in the respiratory system in 18.4% of the miners surveyed
Rocznik
Strony
102--112
Opis fizyczny
Bibliogr. 46 poz., rys., tab.
Twórcy
autor
  • Silesian University of Technology in Gliwice Faculty of Safety Engineering and Industrial Automation 2a Akademicka St., 41-100 Gliwice, Poland
autor
  • Pomeranian Medical University in Szczecin, Faculty of Medicine and Dentistry 1 Rybacka St., 70-204 Szczecin, Poland
Bibliografia
  • 1. Bałaga, D. (2019) Intelligent spraying installation for dust control in mine workings. IOP Conference Series: Materials Science and Engineering 679, 012019.
  • 2. Bałaga, D., Jedziniak, M., Kalita, M., Siegmund, M. & Szkudlarek, Z. (2015) Methods and means of combating dust and methane hazards in coal mining. Maszyny Górnicze 3, pp. 68–81 (in Polish).
  • 3. Bałaga, D., Siegmund, M., Prostański, D. & Kalita, M. (2016) Innovative spraying system for longwall workings. Maszyny Górnicze 3, pp. 14–22 (in Polish).
  • 4. Barber, C. & Fishwick, D. (2016) Pneumoconiosis. Medicine 44 (6), pp. 355–358.
  • 5. Biały, W. (2012) Environmental working conditions versus occupational diseases in the hard coal mining branch. Scientific Journals Maritime University of Szczecin, Zeszyty Naukowe Akademia Morska w Szczecinie 31(103), pp. 37–44.
  • 6. Boros, P., Mejza, F. & Gomółka, P. (2019) Performing spirometry according to the standards of the American Thoracic Society and the European Respiratory Society 2019. Practical Medicine 6, pp. 48–55.
  • 7. Boros, P.W., Maciejewski, A., Nowicki, M.M. & Wesołowski, S. (2022) Comparability of portable and desktop spirometry: a randomized, parallel assignment, open-label clinical trial. Advances in Respiratory Medicine 90(1), pp. 60–67.
  • 8. Brodny, J. & Tutak, M. (2018) Exposure to harmful dusts on fully powered longwall coal mines in Poland. International Journal of Environmental Research and Public Health 15(9), 1846.
  • 9. Ergün, R., Ergün, D., Evcik, E. & Ergan, B. (2017) Evaluation of dental technician’s pneumoconiosis using chest X-ray and HRCT: Correlation between radiological and functional findings. Turkish Journal of Medical Sciences 47(1), pp. 252–259.
  • 10. EUR-LEX (2017) Directive (EU) 2017/2398 of the European Parliament and of the Council of 12 December 2017 amending Directive 2004/37 / EC on the protection of workers from the risks related to exposure to carcinogens or mutagens at work. Journal of Laws UE L 345 of 27/12/2017. Document 32017L2398.
  • 11. Farnik, M., Brożek, G., Czajkowska-Malinowska, M., Krenke, R., Kania, A., Trzaska-Sobczak, M., Połtyn, B., Miszczuk, M., Celejewska-Wójcik, N., Kuziemski, K. & Barczyk, A. (2019) Validation of Polish language version of CAT questionnaire. Polish Archives of Internal Medicine 129, 9, pp. 605–611.
  • 12. Gandhi, S.A., Cohen, R.A., Blanc, P.D. & Go, L.H.T. (2021) Early radiographic pneumoconiosis is associated with impaired exercise gas exchange among coal miners with normal resting spirometry. American Journal of Industrial Medicine 64(6), pp. 453–461.
  • 13. Graham, B.L., Steenbruggen, I., Barjaktarevic, I.Z., Cooper, B.G., Hall, G.L., Hallstrand, T.S., Kaminsky, D.A., McCarthy, K., McCormack, M.C., Miller, M.R., Oropez, C.E., Rosenfeld, M., Stanojevic, S., Swanney, M.P. & Thompson, B.R. (2019) American Thoracic Society and the European Respiratory Society Standardization of spirometry 2019 update an official American Thoracic Society and European Respiratory Society technical statement. American Journal of Respiratory and Critical Care Medicine 200(8), pp. E70–E88.
  • 14. Hall, N.B., Blackley, D.J., Halldin, C.N. & Laney, A.S. (2019) Current review of pneumoconiosis among US coal miners. Current Environmental Health Reports 6(3), pp. 137–147.
  • 15. Han, S., Chen, H., Harvey, M.A., Stemn, E. & Cliff, D. (2018) Focusing on coal workers’ lung diseases: A comparative analysis of China, Australia, and the United States. International Journal of Environmental Research and Public Health 15(11), 2565.
  • 16. ISAP (1974) Act of June 26, 1974 – Labor Code (Journal of Laws of 2018, items 917, 1000 and 1076). Polish Interactive System of Legal Acts [Online] [Accessed: May 01, 2022].
  • 17. ISAP (1997) Regulation of the Minister of Labor and Social Policy of September 26, 1997 on general provisions on health and safety at work. (Journal of Laws of 1997, No. 129, item 844). Polish Interactive System of Legal Acts. [Online] [Accessed: May 01, 2022].
  • 18. ISAP (2011) Regulation of the Minister of Health of February 2, 2011 on the law of research and measurement of factors harmful to health in the work environment. Journal of Laws 2011 No. 33 item 166, as amended. Available from: https://isap.sejm.gov.pl/isap.nsf/DocDetails.xsp?id=WDU20110330166 [Accessed: May 01, 2022].
  • 19. ISAP (2018) Regulation of the Minister of Family, Labor and Social Policy of June 12, 2018. on the maximum allowable concentrations and intensities of factors harmful to health in the work environment. Journal of Laws 2018 item 1286, as amended. Available from: https://isap.sejm.gov.pl/ isap.nsf/DocDetails.xsp?id=WDU20180001286 [Accessed: May 01, 2022].
  • 20. ISAP (2020) Regulation of the Minister of Health of 24 January 2020 amending the regulation on chemical substances, their mixtures, agents or technological processes with carcinogenic or mutagenic effects in the work environment. Journal of Laws 2020 item 197. Available from: https://isap.sejm.gov.pl/isap.nsf/DocDetails.xsp?id=WDU20200000197 [Accessed: May 01, 2022].
  • 21. Ji, Y., Ren, T., Wynne, P., Wan, Z., Ma, Z. & Wang, Z. (2016) A comparative study of dust control practices in Chinese and Australian longwall coal mines. International Journal of Mining Science and Technology 26(2), pp. 199–208.
  • 22. Korban, Z. (2015) Application of the MERIT survey in the multi-criteria quality assessment of occupational health and safety management. International Journal of Occupational Safety and Ergonomics 21(3), pp. 365–372.
  • 23. Korban, Z. (2019) Assessing occupational health and safety management quality by means of multi-criteria assessment: A case study. IOP Conference Series: Earth and Environmental Science 261(1), 012019.
  • 24. Krzemień, S. & Mocek, P. (1999) Determination of the occupational risk index characterizing the potential threat arising in underground workings as a result of the impact of coal dust on the human body. Fighting dust hazards in mining. Mining Mechanization Center KOMAG, SITG KOMAG. Ref. IV, No. 15, pp. 1–9, International Scientific and Technical Conference, Wisła, October 5–7, 1999.
  • 25. Kuczera, Z. & Ptaszyński, B. (2019) Fighting dust in Polish mining. Mineral Engineering 21(1/2), pp. 191–187.
  • 26. Laney, A.S. & Weissman, D.N. (2014) Respiratory diseases caused by coal mine dust. Journal of Occupational and Environmental Medicine 56 (Suppl. 10), pp. 18–22.
  • 27. Liao, X., Wang, B., Wang, L., Zhu, J., Chu, P., Zhu, Z. & Zheng, S. (2021) Experimental study on the wettability of coal with different metamorphism treated by surfactants for coal dust control. ACS Omega 6(34), pp. 21925–21938.
  • 28. Liu, T. & Liu, S.H. (2020) The impacts of coal dust on miners’ health: A review. Environmental Research 190, 109849.
  • 29. López-Campos, J., Soler-Cataluña, J. & Marc Miravitlles, M. (2019) Global strategy for the diagnosis, management, and prevention of chronic obstructive lung disease 2019 report: Future challenges. Archivos de Bronconeumología 56(2), pp. 65–67.
  • 30. Lutyński, L. (2021) Zagrożenia pyłem i ich zwalczanie w zakładach przeróbki mechanicznej kopalń węgla kamiennego. Inżynieria Mineralna 1(1), pp. 9–12.
  • 31. Maciejewska, A. (2012) Application of infrared spectrometry (FT-IR) for mineral identification of asbestos in bulk samples. Medycyna Pracy 63(2), pp. 181–189 (in Polish).
  • 32. Mocek, P. (2002) Assessment of the risk of occupational diseases in workers employed in underground workings of a coal mine. PhD thesis. Gliwice, Poland: Silesian University of Technology.
  • 33. Peng, H., Nie, W., Zhang, S., Cheng, W., Liu, Q., Guo, C., Ma, Q., Zhou, Z., Xu, C., Hua, Y. & Zhang, H. (2022) Research on negative pressure jet dust-removal water curtain technology for coal mine cleaner production. Fuel 310, 122378.
  • 34. Perret, J.L., Plush, B., Lachapelle, P., Hinks, T.S.C., Walter, C., Clarke, P., Irving, L., Brady, P., Dharmage, S.C. & Stewart, A. (2017) Coal mine dust lung disease in the modern era. Official Journal of the Asian Pacific Society of Respirology 22(4), pp. 662–670.
  • 35. Świątkowska, B. & Hanke, W. (2021) Occupational diseases in Poland in 2020. Łódź, Poland: Institute of Occupational Medicine. Central Register of Occupational Diseases.
  • 36. Tinkelman, D.G., Price, D.B., Nordyke, R.J. & Halbert, R.J. (2007) COPD screening efforts in primary care: What is the yield? Primary Care Respiratory Journal 16(1), pp. 41–48.
  • 37. Tobór-Osadnik, K., Wyganowska, M. & Manowska, A. (2017) Employee attitudes to work safety in Poland’s coal mining companies. Journal of the Southern African Institute of Mining and Metallurgy 117(1), pp. 41–46.
  • 38. Tomášková, H., Šplíchalová, A., Šlachtová, H., Urban, P., Hajduková, Z., Landecká, I., Gromnica, R., Brhel, P., Pelclová, D. & Jirák, Z. (2017) Mortality in miners with coal-workers’ pneumoconiosis in the Czech Republic in the period 1992–2013. International Journal of Environmental Research and Public Health 14(3), 269.
  • 39. Torres Rey, C.H., Ibañez Pinilla, M.I., Briceño Ayala, L., Checa Guerrero, D.M., Morgan Torres, G., Groot De Restrepo, H. & Varona Uribe, M. (2015) Underground coal mining: Relationship between coal dust levels and pneumoconiosis, in two regions of Colombia, 2014. BioMed Research International 2015, 647878.
  • 40. WUG (2021) Assessment of work safety, mine rescue and general safety in connection with mining and geological activities in 2021. Katowice: Higher Mining Office.
  • 41. Wyganowska, M. (2019) A study of the correlation between seniority and the number of work accidents in mining enterprises between 2003–2017. IOP Conference Series: Earth and Environmental Science 261(1), 012058.
  • 42. Xu, J. & Wang, H. (2021) Underground intelligent dry dust collector in the coal mine. IOP Conference Series: Earth and Environmental Science 647, 012051.
  • 43. Yang, H.-Y., Shie, R.-H., Chang, C.-J. & Chen, P.-C. (2017) Development of breath test for pneumoconiosis: A case-control study. Respiratory Research 18(1), 178.
  • 44. Zhang, C., Wang, X., Li, S., Jiang, B., Zhai, C., Zhu, C. & Ni, G. (2022) Development and application of a new compound wetting agent for coal seam water infusion. Fuel 314, 122767.
  • 45. Zhang, Y. (2021) Computer-aided diagnosis for pneumoconiosis staging based on multi-scale feature mapping. International Journal of Computational Intelligence Systems 14(1), 191.
  • 46. Zosky, G.R., Hoy, R.F., Silverstone, E.J., Brims, F.J., Miles, S., Johnson, A.R., Gibson, P.G. & Yates, D.H. (2016) Coal workers’ pneumoconiosis: An Australian perspective. The Medical Journal of Australia 204(11), pp. 414–418.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu „Społeczna odpowiedzialność nauki” - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3f1a3272-6165-48c0-9bab-25b9d67a777d
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.