References
- Kligman AM. Hydration injury to human skin. In: Van der Valk PGM, Maibach HI, eds. The irritant contact dermatitis syndrome. Boca Raton: CRC Press; 1996:187–94
- Berardesca E, Maibach HI. Skin occlusion: treatment or drug-like device? Skin Pharmacol 1988;1:207--15
- Bucks D, Guy R, Maibach HI. Effects of occlusion. In: Bronaugh RL, Maibach HI, eds. In vitro percutaneous absorption: principles, fundamentals, and applications. Boca Raton: CRC Press; 1991:85–114
- Hafeez F, Maibach HI. Occlusion effect on in vivo percutaneous penetration of chemicals in man and monkey: partition coefficient effects. Skin Pharmacol Physiol 2013;26:85–91
- Bucks D, Maibach HI. Occlusion does not uniformly enhance penetration in vivo. In: Bronaugh RL, Maibach HI, eds. Percutaneous absorption: drugs, cosmetics, mechanisms, methodology. 3rd ed. New York: Dekker; 1999:81–105
- Haftek M, Teillon MH, Schmitt D. Stratum corneum, corneodesmosomes and ex vivo percutaneous penetration. Microsc Res Tech 1998;43:242–9
- Braham SJ, Pugashetti R, Koo J, Maibach HI. Occlusive therapy in atopic dermatitis: overview. J Dermatol Treat 2010;21:62–72
- Miller MA, Kasting GB. Toward a better understanding of pesticide dermal absorption: diffusion model analysis of parathion absorption in vitro and in vivo. J Toxicol Environ Health A 2010;73:284–300
- Treffel P, Muret P, Muret-D’Aniello P, et al. Effect of occlusion on in vitro percutaneous absorption of two compounds with different physicochemical properties. Skin Pharmacol 1992;5:108–13
- Brooks JD, Riviere JE. Quantitative percutaneous absorption and cutaneous distribution of binary mixtures of phenol and paranitrophenol in isolated perfused porcine skin. Fundam Appl Toxicol 1996;32:233–43
- Gummer CL, Maibach HI. The penetration of [14C] ethanol and [14C] methanol through excised guinea pig skin in vitro. Food Chem Toxicol 1986;24:305–9
- Taylor LJ, Robert SL, Long M, et al. Effect of occlusion on the percutaneous penetration of linoleic acid and glycerol. Int J Pharm 2002;249:157–64
- Lehman PA, Franz TJ. Assessing the bioequivalence of topical retinoid products by pharmacodynamic assay. Skin Pharmacol Physiol 2012;25:269–80
- Garb J. Nevus verrucosus unilateralis cured with podophyllin ointment. Arch Dermatol 1960;81:606–9
- Scholtz JR. Topical therapy of psoriasis with fluocinolone acetonide. Arch Dermatol 1961;84:1029–30
- Flynn GL. Physiochemical determinants of skin absorption. In: Gerrity TR, Henry CJ, eds. Principles of rout-to-route extrapolation for risk assessment. New York: Elsevier; 1990:93–127
- Potts RO, Guy RH. Predicting skin permeability. Pharm Res 1992;9:663–9
- Roper CS, Howes D, Blain PG, Williams FM. Percutaneous penetration of 2-phenoxyethanol through rat and human skin. Food Chem Toxicol 1997;35:1009–16
- Bronaugh RL, Wester RC, Bucks D, et al. In vivo percutaneous absorption of fragrance ingredients in rhesus monkeys and humans. Food Chem Toxicol 1990;28:369–73
- Bucks DA, McMaster JR, Maibach HI, Guy RH. Percutaneous absorption of phenols in vivo. Clin Res 1987;35:672A
- Drug Bank. 13 June 2005. Available from: http://www.drugbank.ca/drugs/DB00936 [last accessed 29 Jan 2013]
- Guy RH, Bucks DAW, McMaster JR, et al. Kinetics of drug absorption across human skin in vivo. In: Shroot B, Schraefer H, eds. Skin pharmacokinetics. Basel: Karger; 1987:70–6
- Lambers H, Piessens S, Bloem A, et al. Natural skin surface pH is on average below 5, which is beneficial for its resident flora. Int J Cosmet Sci 2006;28:359–70
- Moss GP, Dearden JC, Patel H, et al. Quantitative structure-permeability relationships (QSPRs) for percutaneous absorption. Toxicol In Vitro 2002;16:299–317
- Fluhr JW, Lazzerini S, Distante F, et al. Effects of prolonged occlusion on stratum corneum barrier function and water holding capacity. Skin Pharmacol Appl Skin Physiol 1999;12:193–8
- Kömüves LG, Hanley K, Jiang Y, et al. Induction of selected lipid metabolic enzymes and differentiation-linked structural proteins by air exposure in fetal rat skin explants. J Invest Dermatol 1999;112:303–9
- Warner RR, Boissy YL, Lilly NA, et al. Water disrupts stratum corneum lipid lamellae: damage is similar to surfactants. J Invest Dermatol 1999;113:960–6