Your search keyword '"Loose RW"' showing total 2 results

1. Studies on the dermal and systemic bioavailability of polycyclic aromatic compounds in high viscosity oil products.

Author

Potter D, Booth ED, Brandt HC, Loose RW, Priston RA, Wright AS, and Watson WP

Subjects

Animals, Chromatography, High Pressure Liquid, DNA analysis, DNA isolation & purification, Female, Humans, In Vitro Techniques, Mice, Specific Pathogen-Free Organisms, Viscosity, Benzo(a)pyrene pharmacokinetics, Mineral Oil chemistry, Polycyclic Aromatic Hydrocarbons pharmacokinetics, Skin Absorption physiology

Abstract

The assessment of skin penetration by viscous oil products is an important element in the risk assessment of these materials where skin contact is likely. Systemic bioavailability (body uptake) is viewed as a good indicator of skin penetration following cutaneous exposures. The results of this study provide quantitative information on the influence of viscosity on the bioavailability of a specific polycyclic aromatic compound (benzo(a)pyrene) in base oils, residual aromatic extracts and bitumens following skin exposures to mice. The materials studied were a base mineral oil (viscosity 32 cSt at 35 degrees C), a 1:1 blend of the mineral base oil and a residual aromatic extract (198 cSt), several residual aromatic extracts (ca. 5000 cSt, 35 degrees C) and a range of bitumens (0.65-69 x 10(6) cSt, 35 degrees C). These were each spiked with 0.1% radiolabelled benzo(a)pyrene, as a representative carcinogenic polycyclic aromatic compound, then used for cutaneous exposures to mice. The results indicate that as viscosity increased in the range ca. 30 to 5000 cSt (base oil to residual aromatic extract) the uptake of the radiolabelled benzo(a)pyrene into blood was reduced by ca. fivefold. Further increases in viscosity from ca. 5000 to 69 x 10(6) cSt (i.e. residual aromatic extract to bitumen) resulted in a further but smaller (ca. twofold) reduction in uptake. The relationship between the amounts of free benzo(a)pyrene measured in blood and viscosity showed the same trend. This trend was also mirrored by the degree of binding of benzo(a)pyrene metabolites to DNA in skin. The findings in mouse skin in vivo indicate that viscosity can significantly affect skin penetration and systemic bioavailability of polycyclic aromatic compound components of oil products. Results obtained with viable human skin in vitro also showed that the bioavailability of benzo(a)pyrene was reduced by the viscosity of the oil product matrix. It is thus necessary to take account of physical properties such as viscosity in the overall risk assessment of viscous oil products, particularly in the case of very viscous materials such as bitumens. The significantly reduced bioavailability of hazardous compounds from undiluted materials is thus an important factor to consider when assessing the risks from dermal exposures.

Published

1999

2. Correlation of 32P-postlabelling-detection of DNA adducts in mouse skin in vivo with the polycyclic aromatic compound content and mutagenicity in Salmonella typhimurium of a range of oil products.

Author

Booth ED, Brandt HC, Loose RW, and Watson WP

Subjects

Animals, Autoradiography, DNA Adducts chemistry, DNA Adducts genetics, Epidermis chemistry, Epidermis metabolism, Female, Mice, Mutagenicity Tests, Mutagens chemistry, Petroleum analysis, Salmonella typhimurium drug effects, Skin chemistry, Carcinogens chemistry, DNA Adducts metabolism, Mutagens toxicity, Petroleum toxicity, Polycyclic Aromatic Hydrocarbons chemistry, Salmonella typhimurium genetics, Skin metabolism

Abstract

The in vivo genotoxic activities in mouse skin of the dimethyl sulphoxide (DMSO) extracts of a range of oil products [residual aromatic extract; untreated heavy paraffinic distillate aromatic extract; mildly refined light naphthenic base oil; bitumen (vacuum residue); high viscosity index base oil obtained by catalytic hydrogenation] were evaluated by 32P-postlabelling DNA analysis. The results of quantitative 32P-postlabelling analyses of epidermal DNA from mice treated with the DMSO extracts showed linear relationships with the total polycyclic aromatic compound (PAC) contents, determined by the Institute of Petroleum method IP 346 and also the 3-6 ring PAC contents, measured by on-line liquid-liquid extraction using flow injection analysis. The 32P-postlabelling data also showed a linear relationship with the mutagenicity indices of these oil products determined in S. typhimurium TA98 using the modified Ames Salmonella microsome test. The in vivo genotoxicity of the DMSO extracts from the oil products was low, judged by 32P-postlabelling analysis of DNA adducts measured in epidermal DNA of treated mouse skin, and ranging from 2 to 723 attomole/microg DNA per mg oil product. The in vivo 32P-postlabelling data from this study are consistent with these materials expressing low genotoxicity in mouse skin in vivo. The DMSO extraction procedure coupled with 32P-postlabelling DNA analysis is useful for ranking the relative genotoxic potency in vivo of a wide range of oil products. In general the trend observed is similar to rankings based on physicochemical measurements of total PAC contents or 3 6 ring PAC contents of the oil products.

Published

1998