Inhalation exposure to 1,3-dichloropropene in the Dutch flower-bulb culture. Part II. Biological monitoring by measurement of urinary excretion of two mercapturic acid metabolites

Abstract

A biological monitoring study was carried out in the Dutch flower-bulb culture to determine the relationship between respiratory occupational exposure to Z- and E-1,3-dichloropropene (Z- and E-DCP) and urinary excretion of two mercapturic acid metabolites, N-acetyl-S-(Z- and E-3-chloropropenyl-2)-L-cysteine (Z- and E-DCP-MA). Urinary excretion of Z- and E-DCP-MA, either based on excretion rates or on creatinine excretion, followed first order elimination kinetics after exposure. Urinary half-lives of elimination were 5.0 ± 1.2 hr for Z-DCP-MA and 4.7 ± 1.3 hr for E-DCP-MA and were not statistically significantly different. Calculated coefficients of variation indicated that the half-lives of elimination of Z- and E-DCP-MA were quite consistent inter- and intra-individually. Strong correlations (r ⩾ 0.93) were observed between respiratory 8-hr time weighted average (TWA) exposure to Z-and E-DCP and complete cumulative urinary excretion of Z- and E-DCP-MA. Z-DCP yielded three times more mercapturic acid than E-DCP, probably due to differences in metabolism. Z- and E-DCP were excreted 45 and 14% as their respective mercapturic acid metabolites. A respiratory 8-hr TWA exposure to the Dutch occupational exposure limit of 5 mg · m⁻³ DCP would result in a complete cumulative excretion of 14.4 mg (95% confidence interval: 11.7–17.0 mg) Z-DCP-MA and 3.2 mg (95% confidence interval: 2.3–4.1 mg) E-DCP-MA.