A method for the simultaneous determination of urinary phenanthrene, fluoranthene, pyrene, chrysene and benzo[a]pyrene metabolites has been developed for individual risk assessment at polycyclic aromatic hydrocarbon (PAH)-burdened workplaces. The concentration of urinary metabolites as a measure for individual PAH exposure takes account not only of PAH masses resorbed by the respiratory tract but also those incorporated percutaneously. The method allows the determination of 25 different components with a low margin of error; the individual metabolite profiles thereby allow conclusions on the individual characteristics of PAH-oxidizing enzymes (monooxygenases). The coefficients of variation are lower than 10%. After enzymatic treatment of the urine with glucuronidase and arylsulfatase one part of the benzene or toluene extract is treated with diazomethane to convert phenols into methylethers, while another part is used to convert dihydrodiols into phenols. After further purification the metabolites are determined by means of a combination of gas chromatography and mass spectrometry. The PAH exposure of cock plant workers during several consecutive days resulted in fairly constant individual urinary metabolite profiles which, however, exhibited significant inter-individual variability. This held true also for Wistar rats exposed to tar pitch aerosol on 5 days during a period of 10 days. It was also demonstrated that in the case of coke plant workers there is a correlation between inhaled PAH and metabolites excreted. Mass relationships between inhaled PAH and metabolites excreted were found to differ from one individual to another.
A filter combination consisting of an impregnated glass fibre and a control filter was used for the collection of air samples in which gaseous and particulate polycyclic aromatic hydrocarbons (PAHs) were determined. To estimate the loss of lower boiling PAHs, d10-phenanthrene was applied as internal standard. A simple, well-producible method for the determination of 1-, 2-, 3-, 4- and 9-hydroxyphenanthrene, 1,2-, 3,4- and 9,10-dihydroxydihydrophenanthrene, 1-hydroxypyrene and 1,2-dihydroxy-1,2-dihydropyrene is described. By means of personal air samplers the exposure to PAHs of four coke plant employees working at different locations was measured over 4 days. Simultaneously the 24-h urine was collected and stored frozen until analysed. The main excretion product of pyrene is a 1-hydroxypyrene conjugate, whereas phenanthrene is excreted predominantly as dihydrodiol conjugate. As expected, workers on the battery topside were exposed the most and accordingly excreted by far the highest amounts of PAHs. Up to 34.0 micrograms phenanthrol conjugates (total of all isomeric phenols) and 195.5 micrograms dihydrodiol conjugates (total of all isomeric dihydrodiols) were excreted in the 24-h urine (mean of 4 days). The metabolite profiles of five isomeric phenanthrene phenols and three isomeric dihydrodiols exhibited only small percentage variations within one individual whereas significant interindividual differences were observed. These findings may indicate a genetically determined enzyme pattern responsible for the metabolic conversion of PAHs.
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