Victor M. Meidan scite author profile

Abstract. Over the years, in vitro Franz diffusion experiments have evolved into one of the most important methods for researching transdermal drug administration. Unfortunately, this type of testing often yields permeation data that suffer from poor reproducibility. Moreover, this feature frequently occurs when synthetic membranes are used as barriers, in which case biological tissue-associated variability has been removed as an artefact of total variation. The objective of the current study was to evaluate the influence of a full-validation protocol on the performance of a tailor-made array of Franz diffusion cells (GlaxoSmithKline, Harlow, UK) available in our laboratory. To this end, ibuprofen was used as a model hydrophobic drug while synthetic membranes were used as barriers. The parameters investigated included Franz cell dimensions, stirring conditions, membrane type, membrane treatment, temperature regulation and sampling frequency. It was determined that validation dramatically reduced derived data variability as the coefficient of variation for steady-state ibuprofen permeation from a gel formulation was reduced from 25.7% to 5.3% (n=6). Thus, validation and refinement of the protocol combined with improved operator training can greatly enhance reproducibility in Franz cell experimentation.

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Transfollicular drug delivery—Is it a reality?

Meidan

Bonner

Michniak

2005

International Journal of Pharmaceutics

141

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Effects of microneedle length, density, insertion time and multiple applications on human skin barrier function: Assessments by transepidermal water loss

Gomaa

Morrow

Garland

et al. 2010

Toxicology in Vitro

108

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Methods for quantitative determination of drug localized in the skin

Touítou

Meidan

Horwitz

1998

Journal of Controlled Release

137

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Treatments for Androgenetic Alopecia and Alopecia Areata

Meidan

Touítou

2001

Drugs

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Androgenetic alopecia and alopecia areata are common disorders of the hair follicle which may heavily influence self esteem and self image. Androgenetic alopecia is caused by the heightened sensitivity of scalp follicles to dihydro- testosterone whereas alopecia areata is induced by an autoimmune reaction. Current drug treatment approaches include the use of regrowth stimulators such as topical minoxidil and oral finasteride for androgenetic alopecia, as well as topical minoxidil, dithranol (anthralin), corticosteroids, contact sensitisers, and psoralen plus ultraviolet A irradiation (PUVA) therapy for alopecia areata. Combination regimens are also proposed. However, extreme cases of either type of alopecia do not generally respond well to these existing treatments. For this reason, new therapeutic strategies are directed towards both improving the targeting of existing agents, as well as the development of novel hypertrichotic modalities.

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Victor M. Meidan

Validation of a Static Franz Diffusion Cell System for In Vitro Permeation Studies

Transfollicular drug delivery—Is it a reality?

Effects of microneedle length, density, insertion time and multiple applications on human skin barrier function: Assessments by transepidermal water loss

Methods for quantitative determination of drug localized in the skin

Treatments for Androgenetic Alopecia and Alopecia Areata

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