Literature DB >> 24727058

Penetration of normal, damaged and diseased skin--an in vitro study on dendritic core-multishell nanotransporters.

Nesrin Alnasif1, Christian Zoschke1, Emanuel Fleige2, Robert Brodwolf3, Alexander Boreham4, Eckart Rühl5, Katja-Martina Eckl6, Hans-Friedrich Merk7, Hans Christian Hennies6, Ulrike Alexiev3, Rainer Haag2, Sarah Küchler1, Monika Schäfer-Korting8.   

Abstract

A growing intended or accidental exposure to nanoparticles asks for the elucidation of potential toxicity linked to the penetration of normal and lesional skin. We studied the skin penetration of dye-tagged dendritic core-multishell (CMS) nanotransporters and of Nile red loaded CMS nanotransporters using fluorescence microscopy. Normal and stripped human skin ex vivo as well as normal reconstructed human skin and in vitro skin disease models served as test platforms. Nile red was delivered rapidly into the viable epidermis and dermis of normal skin, whereas the highly flexible CMS nanotransporters remained solely in the stratum corneum after 6h but penetrated into deeper skin layers after 24h exposure. Fluorescence lifetime imaging microscopy proved a stable dye-tag and revealed striking nanotransporter-skin interactions. The viable layers of stripped skin were penetrated more efficiently by dye-tagged CMS nanotransporters and the cargo compared to normal skin. Normal reconstructed human skin reflected the penetration of Nile red and CMS nanotransporters in human skin and both, the non-hyperkeratotic non-melanoma skin cancer and hyperkeratotic peeling skin disease models come along with altered absorption in the skin diseases.
Copyright © 2014 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Dendritic core–multishell nanotransporters; Nanotoxicology; Non-melanoma skin cancer; Peeling skin syndrome; Reconstructed human skin; Skin absorption

Mesh:

Substances:

Year:  2014        PMID: 24727058     DOI: 10.1016/j.jconrel.2014.04.006

Source DB:  PubMed          Journal:  J Control Release        ISSN: 0168-3659            Impact factor:   9.776


  15 in total

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Journal:  Int J Mol Sci       Date:  2018-11-08       Impact factor: 5.923
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