Evaluating Workers’ Exposure to Metalworking Fluids and Effective Factors in Their Dispersion in a Car Manufacturing Factory

Andani, A. M.; Golbabaei, F.; Shahtaheri, S. J.; Foroushani, A. R.

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Tytuł artykułu

Evaluating Workers’ Exposure to Metalworking Fluids and Effective Factors in Their Dispersion in a Car Manufacturing Factory

Autorzy

Andani A. M. , Golbabaei F. , Shahtaheri S. J. , Foroushani A. R.

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Abstrakty

Introduction. Metalworking fluids (MWFs), which are widely used in metalworking operations, can cause different adverse effects, e.g., dermal and respiratory disorders, and cancer. Evaluating workers’ exposure to MWF mists and the effective factors in their dispersion were the purpose of this study. Materials and Method. Seventy-five out of 300 workers working in metalworking workshops were randomly selected. MWF concentrations were measured with the National Institute for Occupational Safety and Health (NIOSH) 5524 method. Air temperature and velocity were also determined as the predicted effective parameters on the level of exposure. Results. The results indicated that exposure to MWF mists in one workshop was higher than in the other ones (p < .05). The findings also showed that temperature was an effective factor in the dispersion of MWF mists (p < .05). Discussion. The exposure of almost all workers was under the threshold limit value of 5 mg/m 3, but it was over the value recommended by NIOSH of 0.5 mg/m 3. Air temperature was an effective factor in workers’ exposure (r = .576).

Słowa kluczowe

metalworking fluid occupational exposure temperature air velocity total mist thoracic mist

obróbka metali ryzyko zawodowe narażenie zawodowe temperatura

Wydawca

Taylor & Francis

Czasopismo

International Journal of Occupational Safety and Ergonomics

Rocznik

2014

Tom

Vol. 20, No. 2

Strony

273--280

Opis fizyczny

Bibliogr. 27 poz., tab., wykr.

Twórcy

autor

Andani A. M.

occp1979@gmail.com

Department of Industrial Safety, Islamic Azad University, Dehaghan, Iran

autor

Golbabaei F.

School of Public Health, Tehran University of Medical Science, Tehran, Iran

autor

Shahtaheri S. J.

School of Public Health, Tehran University of Medical Science, Tehran, Iran

autor

Foroushani A. R.

School of Public Health, Tehran University of Medical Science, Tehran, Iran

Bibliografia

1.American National Standards Institute. Mist control considerations for the design, installation, and use of machine tools using metalworking fluids (Standard No. ANSI B11.TR2-1997). New York, NY, USA: ANSI; 1997.
2.Ball A. A survey of metalworking fluid mist in manufacturing plants. Lubrication Engineering. 1997;53(9):18–22.
3.Balmes JR. Surveillance for occupational asthma. Occup Med. 1991;6(1):101–10.
4.Bruce RW. CRC handbook of lubrication: theory and practice tribology. Vol. 1–2. Boca Raton, FL, USA: CRC Press; 1988.
5.Friesen MC, Costello S, Eisen EA. Quantitative exposure to metalworking fluids and bladder cancer incidence in a cohort of autoworkers. Am J Epidemiol. 2009;169(12):1471–8. Retrieved June 2, 2014, from: http://aje.oxfordjournals.org/content/169/12/1471.long.
6.Costello S, Friesen MC, Christiani DC, Eisen EA. Metalworking fluids and malignant melanoma in autoworkers. Epidemiology. 2011;22(1):90–7.
7.Stear M. Metalworking fluids—clearing away the mist? Ann Occup Hyg. 2005;49(4):279–81. Retrieved June 2, 2014, from: http://annhyg.oxfordjournals.org/content/49/4/279.long.
8.Thorne PS, Adamcakova-Dodd A, Kelly KM, O’Neill ME, Duchaine C. Metalworking fluid with mycobacteria and endotoxin induces hypersensitivity pneumonitis in mice. Am J Respir Crit Care Med. 2006;173(7):759–68. Retrieved June 2, 2014, from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2662953/.
9.Henriks-Eckerman ML, Suuronen K, Jolanki R. Analysis of allergens in metalworking fluids. Contact Dermatitis. 2008;59(5):261–7.
10.Zeka A, Kriebel D, Kennedy SM, Wegman DH. Role of underlying pulmonary obstruction in short-term airway response to metal working fluid exposure: a reanalysis. Am J Ind Med. 2003;43(3):286–90.
11.Eisen EA, Holcroft CA, Greaves IA, Wegman DH, Woskie SR, Monson RR. A strategy to reduce healthy worker effect in a cross-sectional study of asthma and metalworking fluids. Am J Ind Med. 1997;31(6):671–7.
12.Forbes JD, Markham TN. Ann Arbor case reports. Cutting and grinding fluids in chronic pulmonary airway disease. J Occup Med. 1967;9(8):421–3.
13.Kennedy SM, Greaves IA, Kriebel D, Eisen EA, Smith TJ, Woskie SR. Acute pulmonary responses among automobile workers exposed to aerosols of machining fluids. Am J Ind Med. 1989;15(6):627–41.
14.Krzesniak L, Kowalski J, Droszcz W, Piotrowska B. Respiratory abnormalities in workers exposed to oil mist. Eur J Respir Dis Suppl. 1981;62(113):88–9.
15.Piacitelli GM, Sieber WK, O’Brien DM, Hughes RT, Glaser RA, Catalano JD. Metalworking fluid exposures in small machine shops, an overview. AIHAJ. 2001;62(3):356–70.
16.Li K, Aghazadeh F, Hatipkarasulu S, Ray TG. Health risks from exposure to metal-working fluids in machining and grinding operations. International Journal of Occupational Safety and Ergonomics (JOSE). 2003;9(1):75–95. Retrieved June 2, 2014, from: http://www.ciop.pl/6144.
17.Gordon T. Metalworking fluid—the toxicity of a complex mixture. J Toxicol Environ Health A. 2004;67(3):209–19.
18.Rosenman KD. Asthma, hypersensitivity pneumonitis and other respiratory diseases caused by metalworking fluids. Curr Opin Allergy Clin Immunol. 2009;9(2):97–102.
19.Eshraghi A. The survey of the relationship between worker’s health and environmental factors in the metalworking, assembly and compressed air small shops [Master of Science in Public Health thesis]. Tehran, Iran: Tehran University of Medical Science; 1983. In Persian.
20.Eisen EA, Smith TJ, Kriebel D, Woskie SR, Myers DJ, Kennedy SM, et al. Respiratory health of automobile workers and exposures to metal-working fluid aerosols: lung spirometry. Am J Ind Med. 2001;39(5):443–53.
21.Jaakkola MS, Suuronen K, Luukkonen R, Järvelä M, Tuomi T, Alanko K, et al. Respiratory symptoms and conditions related to occupational exposures in machine shops. Scand J Work Environ Health. 2009;35(1):64–73.
22.Wlaschitz P, Höflinger W. A new measuring method to detect the emissions of metal working fluid mist. J Hazard Mater. 2007;144(3):736–71.
23.National Institute for Occupational Safety and Health (NIOSH). Metalworking fluids (MWF) all categories (method 5524, issue 1). In: NIOSH manual of analytical methods (NMAM). 4th ed. Atlanta, GA, USA: Centers for Disease Control and Prevention; 2003. Retrieved June 2, 2014, from: http://www.cdc.gov/niosh/docs/2003-154/pdfs/5524.pdf.
24.Simpson AT, Stear M, Groves JA, Piney M, Bradley SD, Stagg S, et al. Occupational exposure to metalworking fluid mist and sump fluid contaminants. Ann Occup Hyg. 2000;47(1):17–30. Retrieved June 2, 2014, from: http://annhyg.oxfordjournals.org/content/47/1/17.full.pdf.
25.Reh BD, Harney JM, McCleery RE, Mueller CA. Evaluation of the NIOSH MWF total particulate matter: thoracic particulate matter conversion factor in a machining environment. J Occup Environ Hyg. 2005;2(4):239–43.
26.Fallah Vadeghani M. The survey of MWF air pollution in a metalworking shop and suggesting the controls [Master of Science in Public Health thesis]. Tehran, Iran: Islamic Azad University; 2005. In Persian.
27.Park D, Stewart PA, Coble JB. A comprehensive review of the literature on exposure to metalworking fluids. J Occup Environ Hyg. 2009;6(9):530–41. Retrieved June 2, 2014, from: http://annhyg.oxfordjournals.org/content/53/3/271.full.

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Bibliografia

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