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Warianty tytułu
EN
Glass Fibers as Environmental Hazard
Języki publikacji
PL
Abstrakty
EN
Due to their prevalence, the hazards posed by glass fibers are an important health problem. In this article, in a synthetic way, the types of glass fibers are characterized as well as the most important physical properties and applications are described. This paper analyzed the scale of the threat that glass fibers posed in occupational and non-occupational environments, including forms of their occurrence and ways to control the size of exposure. The adverse health effects caused by glass fiber exposures, including the results of in vivo, in vitro and epidemiological studies in human populations are also discussed. Finally, the modern material solutions applied to eliminate the hazards posed by glass fibers are presented as well.
Rocznik
Strony
336--350
Opis fizyczny
Bibliogr. 22 poz., rys.
Twórcy
autor
  • Centralny Instytut Ochrony Pracy – Państwowy Instytut Badawczy
  • Centralny Instytut Ochrony Pracy – Państwowy Instytut Badawczy
Bibliografia
  • 1. Augustyńska, D., & Pośniak, M. (red.). (2014). Czynniki szkodliwe w środowisku pracy. Wartości dopuszczalne 2014. Warszawa: Wydawnictwo CIOP-PIB.
  • 2. Bernstein, D.M. (2007). Synthetic Vitreous Fibers: a Review Toxicology, Epidemiology and Regulations. Critical reviews in toxicology, 37, 839-886.
  • 3. Carter, C.M., Axten, C.W., Byers, C.D., Chase, G.R., Koenig, A.R., Reynolds, J.W., Rosinski, K.D. (1999). Indoor Airborne Fiber Levels of MMVF in Residential and Commercial Buildings. American industrial hygiene association journal, 60, 794-800.
  • 4. Costa, R., & Orriols, R. (2012). Man-made Mineral Fibers and the Respiratory Tract. Archivos de bronconeumologia, 48, 460-468.
  • 5. Donaldson, K., & Lang Tran, C. (2004). An Introduction to the Short-term Toxicology of Respirable Industrial Fibers. Mutation research, 553, 5-9.
  • 6. Drent, M., Bomans, P.H., Van Suylen, R.J., Lamers, R.J., Bast, A., Wouters, E.F. (2000). Association of Man-made Mineral Fibre Exposure and Sarcoid- like Granulomas. Respiratory medicine, 94, 815-820.
  • 7. Forget, G., Lacroix, M.J., Brown, R.C., Evans, P.H., Sirois, P. (1986). Response of Perifused Alveolar Macrophages to Glass Fibers: Effect of Exposure Duration and Fiber Length. Environmental research, 39, 124-135.
  • 8. Hesterberg, T.W., Anderson, R., Bernstein, D.M., Bunn, W.B., Chase, G.A., Libby Jankousky, A., Marsh, G.M., McClellan, R.O. (2012). Product Stewardship and Science: Safe Manufacture and Use of Fiber Glass. Regulatory toxicology and pharmacology, 62, 257-277.
  • 9. Hesterberg, T.W., McConnel, E.E., Miiller, W.C., Chevalier, J., Everitt, J., Thevenaz, P., Fleissner, H., Oberdörster, G. (1996). Use of Lung Toxicity and Lung Particle Clearance to Estimate the Maximum Tolerated Dose (MTD) for a Fiber Glass Chronic Inhalation Study in the Rat. Fundamental and applied toxicology, 32, 31-44.
  • 10. Inthavong, K., Mouritz, A.P., Dong, J., Yuan Tu, J. (2013). Inhalation and Deposition of Carbon and Glass Composite Fibre in the Respiratory Airway. Journal of aerosol science, 65, 58-68.
  • 11. LeMasters, G.K., Lockey, J.E., Yiin, J.H., Hilbert, T.J., Levin, L.S., Rice, C.H. (2003). Mortality of Workers Occupationally Exposed to Refractory Ceramic Fibers. Journal of occupational and environmental medicine, 45, 440-450.
  • 12. Marchant, G.E., Amen, M.A., Bullock, C.H., Carter, C.M., Johnson, K.A., Reynolds, J.W., Connelly, F.R., Crane, A.E. (2002). A Synthetic Vitreous Fiber (SVF) Occupational Exposure Database: Implementing the SVF Health and Safety Partnership Program. Applied occupational and environmental hygiene, 17, 276-285.
  • 13. Marek, K. (red.). (2003). Choroby zawodowe. Warszawa: Wydawnictwo Lekarskie PZWL.
  • 14. Mauderly, J.L., Cheng, Y.S., Hoover, M.D., Yeh, H.-C. (2000). Particles inhaled in the occupational setting. W: Gehr, P., & Heyder, J. (red.). Particle- lung interactions. Marcel Dekker, Inc., Nowy Jork.
  • 15. Mayer, P., & Kaczmar, J.W. (2008). Właściwości i Zastosowanie Włókien Węglowych i Szklanych. Tworzywa sztuczne i chemia, 6, 52-56.
  • 16. Prasauskas, T., Krugly, E., Ciuzas, D., Sidaraviciute, R., Kliucininkas, L., Martuzevicius, D. (2014). Characterization of mineral fibre emissions from processes of building refurbishment and operation. Barcelona: Proceedings of World Sustainable Building 2014 Conference.
  • 17. Rapisarda, V., Loreto, C., Ledda, C., Musumeci, G., Bracci, M., Santarelli, L., Renis, M., Ferrante, M., Cardile, V. (2015). Cytotoxicity, Oxidative Stress and Genotoxicology Induced by Glass Fibers on Human Alveolar Epithelial Cell Line A549. Toxicology in vitro, 29, 551-557.
  • 18. Salonen, H.J., Lappalainen, S.K., Riuttala, H.M., Tossavainen, A.P., Pasanen, P.O., Reijula, K.E. (2009). Man-made Vitreous Fibers in Office Buildings in the Helsinki Area. Journal of occupational and environmental hygiene, 6, 624-631.
  • 19. Schneider, T. (2000). Synthetic vitreous fibers. W: Spengler J.D., Samet J.M., McCarthy J.F. (red.). Indoor air quality handbook. Nowy Jork: McGraw-Hill
  • 20. Sripaiboonkij, P., Sripaiboonkij, N., Phanprasit, W., Jaakkola, M.S. (2009). Respiratory and Skin Health among Glass Microfiber Production Workers: a Cross-sectional Study. Environmental health, 8, 36.
  • 21. Szadkowska-Stańczyk, I., & Stroszejn-Mrowca, G. (2002). Kancerogenne Działanie Sztucznych Włókien Mineralnych – Dowody w Badaniach Epidemiologicznych. Medycyna pracy, 53, 137-143.
  • 22. Wallenberger, F.T., Watson, J.C., Li, H. (2001). Glass fibers. W: ASM handbook. vol. 21: composites. Materials Park: ASM International.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d92222ac-6406-4c71-b7cf-a91c032f91c9
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