Exposure to Occupational Carcinogens in Great Britain

doi:10.1093/annhyg/mem049

Annals of Occupational Hygiene Advance Access published online on October 31, 2007
Annals of Occupational Hygiene, doi:10.1093/annhyg/mem049

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Exposure to Occupational Carcinogens in Great Britain

John W. Cherrie¹^,2^,*, Martie Van Tongeren¹^,2 and Sean Semple¹^,2

¹ Institute of Occupational Medicine, Research Avenue North, Edinburgh EH14 4AP, UK
² Department of Environmental and Occupational Medicine, University of Aberdeen, Foresterhill Road, Aberdeen AB25 2ZP, UK

^* Author to whom correspondence should be addressed. Tel: +44(0)131 449 8032; fax: +44(0)870 850 5132; e-mail: john.cherrie{at}iom-world.org

Introduction: This paper describes the available exposure informationfor carcinogens in Great Britain and discusses some of the issuesinvolved in using such data to inform an assessment of the attributableoccupational cancer burden.

Methods: Carcinogenic agents or occupations/industries suchas hairdressers were identified from the list of InternationalAgency for Research on Cancer groups 1 and 2a evaluations andestimates of exposure prevalence for 1990–1993 were obtainedfor a subset of these agents/circumstances from the CARcinogenEXposure (CAREX) database, compiled as part of the Europe AgainstCancer programme. Estimated prevalence of exposure was addedfor some carcinogenic exposure circumstances not covered byCAREX. Information about the level of exposure to chemical agentswas obtained from the Health and Safety Executive's (HSE) NationalExposure Database. Other information was obtained from relevantdatabases such as the Central Index of Dose Information forionizing radiation or published sources.

Results: In total, there were 64 carcinogenic agents/circumstancesidentified with almost seven million people exposed in GreatBritain. The top 30 entries covered 99.5% of the estimated exposedpopulation. The CAREX data were generally higher than the comparabledata on the numbers of people exposed to those agents availablefrom the HSE, although in some individual cases there was considerableover- or underestimation of the exposure prevalence when usingthe CAREX database. The level of exposure varied greatly betweensubstances and between workplaces. For some agents, e.g. radonand sunlight, there are important regional differences in exposurewithin the country. Exposure to carcinogenic agents in GreatBritain was different from that in other countries: in somecases higher and in others lower. Exposure levels in the pastin Britain were mostly greater than today.

Conclusions: Generalizing risk estimates from epidemiologicalstudies in different countries or the past to estimate the fractionof cancers attributable to work must be done with care, particularlyin the case of population-based case–control studies whereexposure estimates are generally crude. Better estimates ofthe distribution of levels and the prevalence of occupationalexposure to carcinogenic substances in Great Britain are neededand systems should be put in place to track this informationin the future. With commitment from all stakeholders, it ispossible that by 2025 exposure to known occupational chemicalcarcinogens could be essentially eliminated in Great Britain.

attributable fraction • carcinogen • exposure

Received May 29, 2007; in final form August 23, 2007

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