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Health Effects of Exposure to Diesel Engine Emissions: A Summary of Animal Studies Conducted by the U.S. Environmental Protection Agency's Health Effects Research Laboratories at Cincinnati, Ohio

U.S. Environmental Protection Agency 26 West St. Clair Street Cincinnati, Ohio 45268

W. B. Peirano

U.S. Environmental Protection Agency 26 West St. Clair Street Cincinnati, Ohio 45268

In order to evaluate the potentially harmful effects of diesel engine emissions, inhalation exposure studies were carried out using a variety of animal species and strains, and measuring a wide range of toxicological parameters. Exhaust was provided by a 6 cylinder Nissan diesel engine operated 20 hours/day, 7 days/week, during a 2 month preliminary trial and 8 hours/day, 7 days/week during a 2 year, 4 month long-term study. The exhaust was diluted to produce a concentration of 6 mg/m³ particulate matter during the preliminary study and during the first year of the long term study and 12 mg/m³ thereafter. Exposure to diesel emissions did not result in detectable genotoxic effects as measured by increases in sister chromatid exchange (SCE), micronucleus testing and metaphase analysis in Chinese hamster and mouse bone marrow cells or in the morphology of cat sperm. SCE in lung cells from Syrian hamsters, however, was increased at the higher exposure level. The incidence of heritable mutations was not increased in mice. An increase in lung tumor incidence was detected in female Senear mice exposed from conception, but not in males, or in either male or female strain A mice exposed from 6 weeks of age. Voluntary activity was decreased in rats during exposure and learning ability was impaired in adult animals exposed during the early postnatal period. Susceptibility to an infectious challenge was increased in diesel exposed mice. Clearance of particles from the lung was found to be minimal even after 90 days recovery in clean air. Pulmonary function alterations in diesel exposed cats suggested the presence of a lesion restricting the air flow. The integrity of the lung as measured by leakage of ¹³¹I labeled protein into the alveoli did not seem to be impaired, but increased collagen synthesis suggested that fibrosis may develop with long-term exposure. The preliminary inhalation study resulted in the induction of xenobiotic metabolizing enzymes in the liver. In later studies, however, enzyme induction was found only in male mice injected with large doses of diesel particulate extract.

International Journal of Toxicology, Vol. 2, No. 4, 253-306 (1983)
DOI: 10.3109/10915818309141011


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