EPIDEMIOLOGIC INVESTIGATION OF OCCUPATIONAL CARCINOGENESIS USING A SERIALLY ADDITIVE EXPECTED DOSE MODEL

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American Journal of Epidemiology Vol. 112, No. 6: 787-797
Copyright © 1980 by The Johns Hopkins University School of Hygiene and Public Health

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EPIDEMIOLOGIC INVESTIGATION OF OCCUPATIONAL CARCINOGENESIS USING A SERIALLY ADDITIVE EXPECTED DOSE MODEL

A. H. SMITH¹^,2, R. J. WAXWEILER³ and H. A. TYROLER¹

¹ Occupational Health Studies Group, University of North Carolina at Chapel Hill NC
³ National Institute for Occupational Safety and Health Cincinnati, OH.

² Reprint requests to Dr. A. H. Smith. Current address: Department of Community Health, Wellington Clinical School of Medicine, Wellington Hospital, Wellington 2, New Zealand

The epidemiologic identification of occupational carcinogensis complicated by several problems including worker mobilitybetween jobs, variation over time of chemicals and processesused, and the long latency period between exposure and discoveryof a tumor. In the light of these problems, a method using thecumulative dose concept has been developed which involves calculatingthe expected yearly exposure for each case from work historiesof all noncases close to the case in year of birth and yearof hire. The data required for use of the method include informationconcerning exposure to the chemicals being studied for eachjob in each calendar year of the study. Use of the method isillustrated with a study of angiosarcoma of the liver and vinylchloride exposure in a polymerization plant. The value of themethod lies in the wealth of information generated concerningthe association between chemical exposures and cancer, includingexposure level relationships, latency information, and the possibilitythat two chemicals might be acting independently or jointly.The serially additive expected dose model is likely to proveparticularly useful in the analysis of data collected by occupationalhealth surveillance systems, as well as retrospective studiesof the type illustrated.

angiosarcoma; cancer; epidemiologic methods; occupational diseases; vinyl chloride

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