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1. 1- Kermani M, Azarshab K, Dowlati M, Ghaderpoori M. A survey of air quality index and quantification of cardiovascular mortality due to exposure to particulate matter smaller than 2.5 micron in Boukan in 2015. 2017. 2. Azimi M, Mansouri Y, Rezai Hachasu V, Aminaei F, MihanPour H, Zare Sakhvidi MJ. Assessment of respiratory exposure of workers with airborne particles in a ceramic tile industry: a case study. Occupational Medicine Quarterly Journal. 2018;10 (1):45-53. 3. Nourmoradi H, Omidi KY, Goudarzi G, Jourvand M, Nikmehr K. Investigation on the dust dispersion (PM10 and PM2. 5) by Doroud Cement Plant and study of its individual exposure rates. 2016. [ DOI:10.18869/acadpub.sjimu.24.1.64] 4. Mohammadyan M, Keyvani S, Yazdani-Charati J, Bahrami A, Yousefi-Nejad R. Indoor and ambient air concentrations of respirable particles between two hospitals in Kashan (2014-2015). KAUMS Journal (FEYZ). 2017;21 (1):66-73. 5. Abril GA, Wannaz ED, Mateos AC, Pignata ML. Biomonitoring of airborne particulate matter emitted from a cement plant and comparison with dispersion modelling results. Atmospheric Environment. 2014;82:154-63. [ DOI:10.1016/j.atmosenv.2013.10.020] 6. Song C, Wu L, Xie Y, He J, Chen X, Wang T, et al. Air pollution in China: status and spatiotemporal variations. Environmental pollution. 2017;227:334-47. [ DOI:10.1016/j.envpol.2017.04.075] [ PMID] 7. Ahmadi Asour A, Pouransari M, Mohammadyan M, Fasih Ramandi F, Hokmabadi R, Akrami R, et al. Risk Assessment of Occupational Exposure to Cement Respirable Particles and Crystalline Silica in a Cement Factory. Journal of North Khorasan University of Medical Sciences. 2021;12 (4):10-7. [ DOI:10.52547/nkums.12.4.10] 8. M N, J HZ. Evaluation of Respiratory Disorders Associated with Occupational Inhalation Exposure to Raw Materials Used in Ceramic Production. Iranian Journal of Epidemiology. 2009;4 (3):27-33. 9. Golbabaei F, Abedinlou R, Fekri N, Shapasandi A, Mohammadi H. A study on the five-year change trend in pulmonary function of workers in tile and ceramic industry. Journal of Health and Safety at Work. 2020;10 (1):37-45. 10. Askaripoor T, Kermani A, Pahlavan D, Jandaghi J, Kazemi E. Health risk assessment of occupational exposure to crystalline silica in a tile & ceramic Industry. Occupational Medicine Quarterly Journal. 2014;6 (2):44-53. 11. Azari MR, Rokni M, Salehpour S, Mehrabi YE, Jafari MJ, Naser MA, et al. Risk assessment of workers exposed to crystalline silica aerosols in the east zone of Tehran. 2009. 12. Rahimnejad S, Bahrami A, Ghorbani Shanh F, Rahimpoor R. Comparation of health risk assessment carcinogenic hydrocarbons in Workplace air in an oil-dependent industry by the Environmental Protection Agency (EPA) and the Department of Human Resources Malaysia. Iran Occupational Health Journal. 2017;14 (5):107-17. 13. Azari MR, Nasermoaddeli A, Movahadi M, Mehrabi Y, Hatami H, Soori H, et al. Risk assessment of lung cancer and asbestosis in workers exposed to asbestos fibers in brake shoe factory in Iran. Industrial health. 2010;48 (1):38-42. [ DOI:10.2486/indhealth.48.38] [ PMID] 14. Health NIoOSa. Silica, Crystalline, by VIS (7601). In: (NIOSH) NIoOSaH, editor. 4th ed2003. 15. Seyedyounes H, Mansour R-A, Raana T-R, Elaheh T. OccupationalRisk Assessment of Benzene in Rubber Tire Manufacturing Workers. International Journal of Occupational Hygiene. 2014;6 (4). 16. Wang DG, Alaee M, Byer JD, Brimble S, Pacepavicius G. Human health risk assessment of occupational and residential exposures todechlorane plus in the manufacturing facility area in China and comparison with e-waste recycling site. The Science of the total environment. 2013;445-446:329-36. [ DOI:10.1016/j.scitotenv.2012.12.059] [ PMID] 17. Rice F, Park R, Stayner L, Smith R, Gilbert S, Checkoway H. Crystalline silica exposureand lung cancer mortality in diatomaceous earth industry workers: a quantitative risk assessment. Occupational and environmental medicine. 2001;58 (1):38-45. [ DOI:10.1136/oem.58.1.38] [ PMID] [ PMCID] 18. Sobhan Ardakani S, Nainian J. Survey of Particulate Matter Pollution in Ambient Air of Azandarian Stone Crushing Units. Human & Environment. 2017;15 (1):1-11. 19. Naghdi S, Mirmohammadi M, Karimzadegan H, Ghodui J. Atmospheric dispersion modeling and health effects of PM2. 5 released from automotive industries (case study of Saipa). Journal of Environmental Health Enginering. 2022;9 (2):189-206. 20. Karimi Ghoozlou R, Ahmadi A, Abbaspour M, Abbaszadeh N. Assessment of Environmental Pollutant Particles PM10 and PM2. 5 with Air Quality Index Method (Case Study: Tehran Industrial Cement Complex). Journal of Environmental Science and Technology. 2021;23 (8):155-67. 21. Hoseinzadeh E, Samarghandi MR, Ghorbani SF, Roshanaei G, Jafari J. Rate of suspended particulate distribution (PM2. 5, PM10 and TSP) in Hamadan main intercity bus stations and its exposurerate. 2012. 22. Parsaseresht G, Rezazadeh-Azari M, Zendehdel R, Hashemi-Nazari SS, Tavakol E. Evaluation of Occupational Exposure and Biological Monitoring of Sand Washing Workers Exposed to Silica Dusts. Irtiqa Imini Pishgiri Masdumiyat. 2017;4 (3):135-42. 23. M N, J HZ. Evaluation of Respiratory Disorders Associated with Occupational Inhalation Exposure to Raw Materials Used in Ceramic Production. Iranian Journal of Epidemiology. 2009;4 (3):27-33. 24. Yeheyis M, Aguilar G, Hewage K, Sadiq R. Exposure to crystalline silica inhalation among construction workers: A probabilistic risk analysis. Human and Ecological Risk Assessment: An International Journal. 2012;18 (5):1036-50. [ DOI:10.1080/10807039.2012.707931] 25. Mohammadi H, Golbabaei F, Farhang Dehghan S, Normohammadi M. Occupational exposure assessment to crystalline silica in an insulator industry: Determination the risk of mortality from silicosis and lung cancer. Journal of Health and Safety at Work. 2017;7 (1):45-52. 26. Azari M, Sahatfardi F, Zarei F, Ebrahimi Hariri A, Salehpour S, Sori H. Risk assessment of mortality from silicosis and lung cancer Workers in machine factories and traditional brick production workshops with crystalline silica. Occupational Medicine Quarterly Journal. 2020;12 (3):26-34.
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