Transfer of the experimental methodology described in the FDA guidance for corticosteroid bioequivalence testing to pharmacodynamic effects caused by nicotinates.

Abstract	BACKGROUND: The measurement of the pharmacodynamic response allows the noninvasive quantification of cutaneous drug penetration. AIMS: The objective of this study was to investigate whether the experimental methods described in the US Food and Drug Administration Guidance for Industry "Topical Dermatologic Corticosteroids: In vivo Bioequivalence" may be transferred to other response parameters such as skin redness and surface temperature. METHODS: Drug penetration experiments with methyl nicotinate in two different lipophilic vehicles were performed according to the FDA guidance for corticosteroid bioequivalence testing measuring the cutaneous erythema and skin temperature response. RESULTS: The guidance methodology was transferred to the response parameters redness and temperature. Bioequivalence testing was feasible with these response parameters. CONCLUSIONS: An open one-compartment model could only be confirmed for skin redness data by a compartmental analysis of response vs. time profiles. The obtained temperature data can neither be described by an open one-compartment nor by a two-compartment model. A correlation between skin color and skin surface temperature could not be found.
Authors	Yvonne Remane, Claudia S Leopold
Journal	Journal of cosmetic dermatology (J Cosmet Dermatol) Vol. 5 Issue 4 Pg. 289-93 (Dec 2006) ISSN: 1473-2165 [Electronic] England
PMID	17716246 (Publication Type: Clinical Trial, Journal Article)
Chemical References	Adrenal Cortex Hormones Nicotinic Acids methyl nicotinate
Topics	Adrenal Cortex Hormones (pharmacokinetics) Adult Area Under Curve Erythema (chemically induced, pathology) Female Humans Male Middle Aged Nicotinic Acids (pharmacology) Skin Pigmentation (drug effects) Skin Temperature (drug effects) Therapeutic Equivalency United States United States Food and Drug Administration

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