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A Mathematical Approach Using Strat-M ® to Predict the Percutaneous Absorption of Chemicals under Finite Dose Conditions.

Ryoki KunitaTakafumi NishijimaHiroaki TodoKenji SugibayashiHitoshi Sakaguchi
Published in: Pharmaceutics (2022)
Estimation of the percutaneous absorption is essential for the safety assessment of cosmetic and dermopharmaceutical products. Currently, an artificial membrane, Strat-M ® , has been focused on as the tool which could obtain the permeation parameters close to the skin-derived values. Nevertheless, few practical methodologies using the permeation parameters for assessing percutaneous absorption under in-use conditions are available. In the present study, based on Fick's first law of diffusion, a novel mathematical model incorporating the permeation parameters as well as considering the water evaporation ( T eva ) was constructed. Then, to evaluate the applicability domain of our model in the case where Strat-M ® -derived parameters were used, the permeation parameters were compared between the skin from edible porcine and Strat-M ® . Regarding chemicals (-0.2 ≤ Log K ow ≤ 2.0), their permeation profiles were equivalent between Strat-M ® and porcine skin. Therefore, for these chemicals, the percutaneous absorption was calculated using our model with the permeation parameters obtained using Strat-M ® and the T eva determined by measuring the solution weight. The calculated values revealed a good correlation to the values obtained using porcine skin in finite dose experiments, suggesting that our mathematical approach with Strat-M ® would be useful for the future safety assessment of cosmetic and dermopharmaceutical products.
Keyphrases
  • minimally invasive
  • soft tissue
  • ultrasound guided
  • radiofrequency ablation
  • body mass index
  • weight loss
  • weight gain