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Correlation of mutagenic and dermal carcinogenic activities of mineral oils with polycyclic aromatic compound content

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Abstract

Mutagenicity, polynuclear aromatic compound content, and skin carcinogenicity were compared for a series of complex oil mixtures derived from the refining and processing of petroleum. Mutagenicity in a modified Ames Salmonella assay showed an excellent correlation with carcinogenicity, as determined in a mouse skinpainting bioassay, for oil samples with median boiling points (defined as the temperature at which 50%/volume of an oil sample is recovered as condensate during distillation—50% recovered) above ∼500°F. A significant correlation was also observed between the 3–7 ring polycyclic aromatic compound (PAC) content and both mutagenic and carcinogenic potencies for samples ranging from those with median (50% recovered) boiling points above ∼500°F to those with initial boiling points of ∼1070°F. These results show that both PAC content and mutagenicity are predictive of dermal carcinogenic activity and indicate that PAC components are largely if not entirely responsible for both the carcinogenic and mutagenic activities.

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    Mineral oil is a general term that has been used to describe not only material covered in this paper but crude petroleum and virtually all materials derived from it (e.g., light naphtha, gasoline, kerosine, middle distillates, and fuel oils).

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    Copyright © 1988 Published by Elsevier Inc.