The transient dermal exposure: theory and experimental examples using skin and silicone membranes.

A diffusion model is presented to account for the disposition of chemicals applied to skin as transient exposures. Two conditions are considered that apply to the skin surface following the exposure period, which are applicable to chemicals exhibiting two extremes of chemical volatility. For one case, representing highly volatile compounds, the solution is generalized to apply to multiple transient exposures. For both cases, algebraic expressions are derived to calculate the total amount of chemical that penetrates the skin. The theory is applied to experimental measurements of the in vitro penetration of diethyl phthalate applied to hairless guinea pig (HGP) skin and silicone rubber membranes (SRMs) as transient exposures. The transient exposure theory ably models the experimental data, with coefficients of determination greater than 0.97 (HGP) and greater than 0.99 (SRM). The ability of parameters derived from concurrent infinite dose experiments to predict the time course of absorption from transient exposures is explored. Discrepancies were found between measured cumulative penetration of chemical from transient exposure experiments and penetration predicted from parameters derived from infinite dose experiments, particularly for HGP. Possible reasons are explored. The current model may provide a realistic framework for estimating absorption from occupational, environmental and pharmaceutical dermal exposures.

[1]  E R Cooper,et al.  Finite dose pharmacokinetics of skin penetration. , 1985, Journal of pharmaceutical sciences.

[2]  Johannes M Nitsche,et al.  A two-phase analysis of solute partitioning into the stratum corneum. , 2006, Journal of pharmaceutical sciences.

[3]  A. Barbero,et al.  Application of solid-phase microextraction to in vitro skin permeation experiments: example using diethyl phthalate. , 2005, Toxicology in vitro : an international journal published in association with BIBRA.

[4]  R. Guy,et al.  A theoretical description relating skin penetration to the thickness of the applied medicament , 1980 .

[5]  Darach Golden,et al.  Analysis, interpretation, and extrapolation of dermal permeation data using diffusion-based mathematical models. , 2007, Journal of pharmaceutical sciences.

[6]  John Crank,et al.  The Mathematics Of Diffusion , 1956 .

[7]  A. Naik,et al.  Computer simulation of penetrant concentration-depth profiles in the stratum corneum , 1992 .

[8]  M. Roberts,et al.  Diffusion modeling of percutaneous absorption kinetics: 2. Finite vehicle volume and solvent deposited solids. , 2001, Journal of pharmaceutical sciences.

[9]  Gerald B Kasting,et al.  Kinetics of finite dose absorption through skin 2: volatile compounds. , 2006, Journal of pharmaceutical sciences.

[10]  J. C. Jaeger,et al.  Conduction of Heat in Solids , 1952 .

[11]  G B Kasting,et al.  Kinetics of finite dose absorption through skin 1. Vanillylnonanamide. , 2001, Journal of pharmaceutical sciences.

[12]  A. M. Api,et al.  Toxicological profile of diethyl phthalate: a vehicle for fragrance and cosmetic ingredients. , 2001, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[13]  H. Frasch,et al.  Steady-state flux and lag time in the stratum corneum lipid pathway: results from finite element models. , 2003, Journal of pharmaceutical sciences.

[14]  J Hadgraft,et al.  Percutaneous absorption: theoretical description , 1979, The Journal of pharmacy and pharmacology.

[15]  H Frederick Frasch,et al.  A random walk model of skin permeation. , 2002, Risk analysis : an official publication of the Society for Risk Analysis.

[16]  T. Yamada,et al.  Finite dose percutaneous drug absorption: theory and its application to in vitro timolol permeation. , 1990, Journal of pharmaceutical sciences.

[17]  Michael S Roberts,et al.  Diffusion modeling of percutaneous absorption kinetics: 3. Variable diffusion and partition coefficients, consequences for stratum corneum depth profiles and desorption kinetics. , 2004, Journal of pharmaceutical sciences.