Original Article

Risk Assessment of Occupational Exposure to Crystalline Silica in Small Foundries in Pakdasht, Iran

Abstract

Background: The term crystallized silica refers to the crystallized form of Sio2 and quartz, the most frequency composition in the earth’s crust that can cause silicosis and lung cancer through occupational exposure and inhalation of its large quantities.

Methods: Occupational exposure of workers in Pakdasht, Iran, in 2011 was investigated in four different casting processes in small foundries with less than 10 workers. Sampling respirable dust was collected on MCE filter, using HD cyclone at a flow rate of 2.2 lit/min. The filters were analyzed for dust using NIOSH Method 7601. Gravimetric and visible absorption spectrophotometer was used to determine amounts of inhalable dust and free silica, respectively. Risk assessment techniques were also used to predict silicosis and lung cancer.

Results: Geometric means of occupational exposure to crystalline silica in 4 different casting processes were studied within the range of 0.009-0.04 mg/m3. Mortality rate due to silicosis was in the range of 1-13.7 per 1000 persons exposed. Risk of mortality due to lung cancer in exposed workers in small casting workshops in Pakdasht, Iran ranged 4-16 per 1000 persons exposed based on geometric mean and 45 years of exposure. According to risk assessment, mortality due to silicosis, cumulative exposure of 96% of population was at an acceptable level of 1/1000.

Conclusion: Fifty percent of workers were exposed to crystalline silica dust in excess of Recommended Exposure Limit -NIOSH and Threshold Limit Value ACGIH (0.025 mg/m3). Several cases of silicosis and lung cancer are anticipated for this occupational group in near future.

 

Guthrie GD, Heaney PJ (1995). Mineralogical char¬acter-istics of silica polymorphs in relation to their bio-logical activities. Scand J Work Envi¬ron Health, 21 (Suppl 2), 5- 8.

International Agency for Research on Cancer (1987). Sil-ica, some silicates, IARC, Monogrphs on the evalu-ation of carcinogenic risks to hum mans. 42, 39–41. Lyon, France. World Health Organization.

Altindag ZZ, Baydar T, Isimer A, Sahin G (2003). Ne-opterin as a new biomarker for the evalua¬tion of occupational exposure to silica. Int Arch Oc¬cup Envi¬ron Health, 76, 318–322.

Flanagan ME, Seixas N, Majar M, Camp J, Mor¬gan M (2003). Silica dust exposures during se¬lected con-struction activities. Am Ind Hyg Assoc J, 64, 319–328.

Occupational Safety and Health Administration (2001). Air contaminants. 29 CFR 1910.1000. Washing¬ton, DC.

National Institute for Occupational Safety and Health (2002). Health effects of occupational exposure to respirable crys-talline silica. Department of Health and Human Ser¬vices. Centers for Disease Control and Prevention.

International Agency for Research on Cancer (1997). Sil-ica, some silicates, coal dust and para-ara¬mid fibrils. IARC Monogrphs on the evaluation of carcino¬genic risks to hum mans. 68. 42–242. Lyon, France. World Health Organization.

Linch KD, Miller WE, Althouse RB, Groce DW, Hale JM (1998). Surveillance of respirable crys¬tal¬line silica dust using OSHA compliance data (1979-1995). Am J Ind Med, 34 (6), 547- 58.

Davis GS, Harber P, Schenker MB, Balmes JR (1996). Occupational and environmental respiratory dis¬ease.1rd ed. St. Louis, MO: Mosby—Year Book, Inc, pp.: 373–99.

Robert CJ, Williams PL, Roberts SM (2000). Risk assess¬ment. In: Principles of toxicology, environmen¬tal and in-dustrial applications. Eds, Williams PL, James RC, Rob-erts SM. Wiley-Inter Science Publi¬cation. pp. 437-77.

Mannetje A, Steenland K, Attfield M, Boffetta P, Checkoway H, DeKlerk, N, Koskela RS (2002). Ex¬posure-response analysis and risk assess¬ment for silica and silicosis mortality in a pooled analysis of six cohorts. Occup Environ Med, 59 (11), 723- 8.

Sherson D (2002). Silicosis in the twenty first cen¬tury. Oc-cup Environ Med, 59(11), 721- 2.

Rice FL, Park R, Stayner L, Smith R, Gilbert S, Checkoway H (2001). Crystalline silica expo¬sure and lung cancer mortality in diatomaceous earth in¬dustry workers. A quantitative risk as¬sess¬ment. Oc¬cup Environ Med, 58 (1), 38- 45.

US Department of Labor (1996). Press release on joint cam-paign on silicosis prevention. Labor Secretary calls for an end to silicosis. Washington, DC. Depart¬ment of La¬bor, Office of Public Affairs.

National Institute for Occupational Safety and Health (2003). Silica.Crystalline.by VIS. NIOSH Manual of Ana¬lytical Methods (NMAM), 4th ed., 7601.

Rezazadeh Azari, M, Rokni M (2009). Risk assess¬ment of workers exposed to crystalline silica aero¬sols in the east zone of Tehran. Tanaffos, 8(3), 43-50.

Chen W, Zhuang Z, Attfield MD, Chen BT, Gao P, Har¬rison JC (2001). Exposure to silica and sili¬cosis among tin miners in China exposure-re¬sponse anal-yses and risk assessment. Occup Envi¬ron Med, 58 (1), 31- 7.

Steenland K, Sanderson W (2001). Lung cancer among industrials sand workers exposed to crys¬tal¬line silica. Am J Epidemiol, 153 (7), 695- 703.

Steenland K, Mannetje A, Boffetta P et al. (2001). Pooled exposure-response analyses and risk as¬sess-ment for lung cancer in 10 cohorts of sil¬ica-ex¬posed workers: an IARC multicentre study. Cancer Causes Control, 12 (9).773- 84.

American Conference of Governmental Indus¬trial Hy-gienists (2002). Threshold Limit Values (TLV) and Biological Exposure Index (BEI), Cin¬cinnati, 2311, Ohio.

American Conference of Governmental Indus¬trial Hy-gienists (2011). Threshold Limit Values (TLV) and Bi-ological Exposure Index (BEI), Cincin¬nati, 2311, Ohio.

Rodricks JV, Brett SM, Wrenn GC (1987). Signifi¬cant risk decisions in federal regulatory agen¬cies. Regul Toxi¬col Pharmacol, 7(3), 307-20.

National Institute for Occupational Safety and Health (1998). A guide to working safety with silica. U.S. Depart-ment of labor.

Files
IssueVol 45 No 1 (2016) QRcode
SectionOriginal Article(s)
Keywords
Crystalline silica Small casting foundries Silicosis Lung cancer Risk assessment

Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
1.
OMIDIANIDOST A, GHASEMKHANI M, KAKOOEI H, SHAHTAHERI SJ, GHANBARI M. Risk Assessment of Occupational Exposure to Crystalline Silica in Small Foundries in Pakdasht, Iran. Iran J Public Health. 2016;45(1):70-75.