Diesel Exhaust

This report describes a study by Dr. Schenker and colleagues to investigate the usefulness of urinary mutagenicity as a biological marker of occupational diesel exhaust exposure. Personal exposure to diesel exhaust over 2 consecutive work shifts was monitored via personal air samplers in 87 railroad workers, with adjustment for first-hand and environmental tobacco smoke exposure. Urine samples collected at the end of shifts were evaluated for mutagenicity and analyzed for any correlation with diesel exhaust exposure.

This report describes a study by Dr. Moon and colleagues to investigate the carcinogenic potential of 1-nitropyrene, a mutagenic constituent of diesel exhaust particles, using a hamster respiratory-carcinogenesis model. Male hamsters were exposed to 1 or 2 mg of 1-nitropyrene via intratracheal administration either once or twice a week for 92 weeks. In order to study activity as a cocarcinogen, 1 or 2 mg of 1-nitropyrene was administered in combination with 0.25 mg of the known environmental carcinogen benzo[α]pyrene once per week for 92 weeks.

This report describes a study by Dr. Heinrich and colleagues to investigate the effects of exposure to NO₂ and SO₂ or diesel engine exhaust on tumor formation in hamsters. Hamsters were exposed for 6, 10.5, 15, or 18 months to whole diesel exhaust, diesel exhaust without particles, or a mixture of NO₂ and SO₂. Additional groups of animals exposed to each test atmosphere were also injected with 3 or 6 mg of diethylnitrosamine/kg body weight to evaluate any enhancing effect of diethylnitrosamine on exposure-related changes.

This report assessed in rats the carcinogenicity of inhaled 1-nitropyrene, a compound frequently adsorbed to diesel particulate matter, and whether this effect is modified when 1-nitropyrene is associated with particles or irritant gases. Dr. Wolff and colleagues exposed rats to atmospheres containing 14C radiolabeled 1-nitropyrene alone or in combination with gallium oxide, sulfur dioxide, or both. After exposure, tissue samples were analyzed for radiolabel content to determine the tissue distribution of 1-nitropyrene and its metabolites.