In vivo percutaneous absorption of 14 pesticides was studied in young (33-d-old) and adult (82-d-old) female Fischer 344 rats, at three different dose levels. Carbon-14-labeled pesticides in acetone were applied to previously clipped middorsal skin. The treatment area was 2-3% of the body surface area. Penetration of the pesticides during a 72-h period ranged from approximately 1%-90%, depending on compound, dose, and age of animal. No clear age-related pattern of dermal absorption among compounds was found. Only chlordecone, folpet, and permethrin did not show significant age-dependent differences in skin penetration. Atrazine, carbaryl, chlorpyrifos, and hexachloro-biphenyl had greater absorption in the young, while carbofuran, captan, dinoseb, DSMA, MSMA nicotine, and parathion displayed greater absorption in the adult. The majority of the compounds showed dose-dependent penetration. The dose-response curves for penetration were not parallel for 8 of the 14 compounds studied.
Age dependence in dermal absorption has been a major concern in risk assessment. Captan, a chloroalkyl thio heterocyclic fungicide, was selected for study of age dependence as representative of this class of pesticides. Dermal penetration of [14C]captan applied at 0.286 mumol/cm2 was determined in young (33-d-old) and adult (82-d-old) female Fischer 344 rats in vivo and by two in vitro methods. Dermal penetration in vivo at 72 h was about 9% of the recovered dose in both young and adult rats. The percentage penetration was found to increase as dosage (0.1, 0.5, 2.7 mumol/cm2) decreased. Two in vitro methods gave variable dermal penetration values compared with in vivo results. A static system yielded twofold higher dermal penetration values compared with in vivo results for both young and adult rats. A flow system yielded higher dermal penetration values in young rats and lower penetration values in adults compared with in vivo results. Concentration in body, kidney, and liver was less in young than in adult rats given the same absorbed dosage. A physiological pharmacokinetic model was developed having a dual compartment for the treated skin and appeared to describe dermal absorption and disposition well. From this model, tissue/blood ratios of captan-derived radioactivity for organs were found to range from 0.35 to 3.4, indicating no large uptake or binding preferences by any organ. This preliminary pharmacokinetic model summarizes the experimental findings and could provide impetus for more complex and realistic models.
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