2011 | OriginalPaper | Buchkapitel
Nanosized and Nanoencapsulated Sunscreens
verfasst von : Cássia B. Detoni, Karina Paese, Ruy C. R. Beck, Adriana R. Pohlmann, Sílvia S. Guterres
Erschienen in: Nanocosmetics and Nanomedicines
Verlag: Springer Berlin Heidelberg
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Nanotechnology represents an important complement to traditional chromophore-based UV filters. Nanosized metal oxides are widely used due to their broad protection spectrum and reduced skin irritation. These particles are already present in most commercial sunscreen lotions even though their photoreactivity has been highlighted as a potential cause of cytotoxic effects in human skin cells (e.g. fibroblasts, epithelial cells). However, this cytotoxicity is not likely to represent a significant health risk to consumers as several skin penetration assays have shown that the photoreactive particles penetrate at most to the
stratum spinosum
of the epidermis. Nanoencapsulation of traditional organic UV filters is a more recent approach to improve skin retention, photostability and the UV blocking ability of the free molecules. All of these improvements have been confirmed with different scientific assays for different particles, especially polymeric nanocapsules and solid lipid nanoparticles. These technological advantages offered by nanometric particles for sun protection formulations have made them commercially important. In inventories from non-governmental organizations there are approximately 30 commercial sunscreen products listed as containing nanoparticles.