Metabolism of chemicals occurs in skin and therefore should be taken into account when one determines topical exposure dose. Skin metabolism is difficult to measure in vivo because biological specimens may also contain metabolites from other tissues. Metabolism in skin during percutaneous absorption can be studied with viable skin in flow-through diffusion cells. Several compounds metabolized by microsomal enzymes in skin (benzo[alpyrene and 7-ethoxycoumarin) penetrated human and hairless guinea pig skin predominantly unmetabolized. However, compounds containing a primary amino group (p-aminobenzoic acid, benzocaine, and azo color reduction products) were substrates for acetyltransferase activity in skin and were substantially metabolized during absorption. A physiologically based pharmacokinetic model has been developed with an input equation, allowing modeling after topical exposure. Plasma concentrations in the hairless guinea pig were accurately predicted for the model compound, benzoic acid, from in vitro absorption, metabolism, and other pharmacokinetic parameters. -Environ Health Perspect 102(Suppl 1 1): 71-74 (1994)
Using a static diffusion cell with varying receptor fluids the viability of isolated rat skin mounted as whole skin or as split thickness skin has been studied. Skin viability decreased with time with phosphate buffer or Eagles MEM and was not supported with ethanol/water as the receptor fluid. The pesticide aldrin was absorbed through the skin into ethanol/water but not the aqueous receptor fluids. With viable skin preparations aldrin was metabolised to dieldrin and absorbed aldrin and the metabolite remained in the skin. Viable skin preparations must be used to assess in vitro, the degree of metabolism of xenobiotics which occurs during percutaneous absorption.
Metabolism of carbaryl by rat liver and skin post-mitochondrial fraction has been measured in the presence and absence of cofactors to promote different metabolic pathways. The metabolic capacity was compared with the metabolism of carbaryl during percutaneous absorption in a static skin diffusion system using a variety of receptor fluids. Carbaryl was metabolised by hydrolysis, and ring hydroxylation followed by conjugation to the glucuronide or sulphate with liver post-mitochondrial fraction. Using skin post-mitochondrial fraction only hydrolysis and conjugation were detected. No metabolism was seen during percutaneous absorption in vitro even with receptor fluids which maintain the skin tissue viability. Studies using post-mitochondrial fraction indicate the metabolic capacity of the tissue, whereas during absorption, rates of absorption and accessibility of substrate to the metabolising enzymes must be considered.
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