Penetration through the Skin Barrier

Jesper Bo Nielsen, Eva Benfeldt, Rikke Holmgaard

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearch

Abstract

The skin is a strong and flexible organ with barrier properties essential for maintaining homeostasis and thereby human life. Characterizing this barrier is the ability to prevent some chemicals from crossing the barrier while allowing others, including medicinal products, to pass at varying rates. During recent decades, the latter has received increased attention as a route for intentionally delivering drugs to patients. This has stimulated research in methods for sampling, measuring and predicting percutaneous penetration. Previous chapters have described how different endogenous, genetic and exogenous factors may affect barrier characteristics. The present chapter introduces the theory for barrier penetration (Fick's law), and describes and discusses different methods for measuring the kinetics of percutaneous penetration of chemicals, including in vitro methods (static and flow-through diffusion cells) as well as in vivo methods (microdialysis and microperfusion). Then follows a discussion with examples of how different characteristics of the skin (age, site and integrity) and of the penetrants (size, solubility, ionization, logPow and vehicles) affect the kinetics of percutaneous penetration. Finally, a short discussion of the advantages and challenges of each method is provided, which will hopefully allow the reader to improve decision making and treatment planning, as well as the evaluation of experimental studies of percutaneous penetration of chemicals.

Original languageEnglish
Title of host publicationSkin Barrier Function
Volume49
PublisherKarger
Publication date2016
Pages103-111
ISBN (Print)9783318055856
ISBN (Electronic)9783318055863
DOIs
Publication statusPublished - 2016
SeriesCurrent Problems in Dermatology
Volume49
ISSN1421-5721

Keywords

  • Absorption, Physicochemical
  • Diffusion
  • Diffusion Chambers, Culture
  • Humans
  • Microdialysis
  • Models, Theoretical
  • Permeability
  • Skin Absorption
  • Skin Physiological Phenomena
  • Skin/blood supply

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