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Occup Environ Med 2008;65:384-391 doi:10.1136/oem.2007.034470
  • Original article

Exposure to inhalable dust and its cyclohexane soluble fraction since the 1970s in the rubber manufacturing industry in the European Union

  1. F de Vocht1,
  2. R Vermeulen1,
  3. I Burstyn1,
  4. W Sobala2,
  5. A Dost3,
  6. D Taeger4,
  7. U Bergendorf5,
  8. K Straif4,
  9. P Swuste6,
  10. H Kromhout1
  1. 1
    Environmental Epidemiology Division, Institute for Risk Assessment Sciences, Utrecht University, Utrecht, The Netherlands
  2. 2
    NOFER Institute of Occupational Medicine, Lodz, Poland
  3. 3
    British Rubber Manufacturers’ Association Ltd (currently The British Tyre Manufacturers Association), London, UK
  4. 4
    Institute of Epidemiology and Social Medicine, Universitaetsklinikum Muenster, Muenster, Germany
  5. 5
    Department of Occupational and Environmental Medicine, Lund University Hospital, Lund, Sweden
  6. 6
    Faculty of Technology, Policy and Management, Technical University Delft, Delft, The Netherlands
  1. Professor Hans Kromhout, IRAS, PO Box 80.177, 3508 TD, Utrecht, The Netherlands; H.Kromhout{at}uu.nl
  • Accepted 28 September 2007
  • Published Online First 10 October 2007

Abstract

Objectives: As exposures to airborne particulates in the European rubber industry might still be causing genotoxic risks, it is important to assess trends in levels of inhalable dust and its cyclohexane soluble fraction (CSF) between the 1970s and 2003.

Methods: 13 380 inhalable and 816 respirable dust and 5657 CSF measurements, collected within the framework of the European Union Concerted Action EXASRUB, were analysed. Hierarchical mixed effects models were applied to assess exposure trends, taking into account between-factory, between-worker/location and day-to-day variances.

Results: Geometric mean levels of inhalable dust and CSF exposure changed by −4 (range −5.8 to +2.9) and −3 (range −8.6 to 0) per year, respectively. Significant reductions in inhalable dust concentrations were found in all countries for handling of crude materials and mixing and milling (−7 to −4 per year), as well as for miscellaneous workers (−11 to −5 per year), while significant CSF exposure reductions were found in curing (−8.6 per year) and maintenance and engineering departments (−5.4 per year).

Conclusion: These analyses suggest that on average exposure levels of inhalable dust and its CSF in the European rubber manufacturing industry have steadily declined. Most likely genotoxic risks have also lessened over time since exposure levels have decreased and the most toxic chemicals have been replaced. In addition to differences in exposure reductions and levels among various stages of the production process, large differences across countries were noted. These patterns should be taken into account in retrospective assessment of exposure for epidemiological studies assessing cancer risk in the rubber industry.

Footnotes

  • Funding: This study was funded by a grant of the Quality of Life and Management of Living Resources Programme in the European Union 6th framework (contract no. QLK4-CT-2001-00160 and QLRT-2001-02786)

  • Competing interests: None.

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