角质层
纳米技术
药物输送
纳米颗粒
固体脂质纳米粒
渗透(战争)
人体皮肤
纳米医学
材料科学
化学
医学
病理
生物
工程类
运筹学
遗传学
作者
Tarl W. Prow,Jeffrey E. Grice,Lynlee L. Lin,Rokhaya Faye,Margaret K. Butler,Wolfgang Becker,Elisabeth M.T. Wurm,Corinne Yoong,Thomas A. Robertson,H. Peter Soyer,Michael S. Roberts
标识
DOI:10.1016/j.addr.2011.01.012
摘要
Skin is a widely used route of delivery for local and systemic drugs and is potentially a route for their delivery as nanoparticles. The skin provides a natural physical barrier against particle penetration, but there are opportunities to deliver therapeutic nanoparticles, especially in diseased skin and to the openings of hair follicles. Whilst nanoparticle drug delivery has been touted as an enabling technology, its potential in treating local skin and systemic diseases has yet to be realised. Most drug delivery particle technologies are based on lipid carriers, i.e. solid lipid nanoparticles and nanoemulsions of around 300 nm in diameter, which are now considered microparticles. Metal nanoparticles are now recognized for seemingly small drug-like characteristics, i.e. antimicrobial activity and skin cancer prevention. We present our unpublished clinical data on nanoparticle penetration and previously published reports that support the hypothesis that nanoparticles > 10 nm in diameter are unlikely to penetrate through the stratum corneum into viable human skin but will accumulate in the hair follicle openings, especially after massage. However, significant uptake does occur after damage and in certain diseased skin. Current chemistry limits both atom by atom construction of complex particulates and delineating their molecular interactions within biological systems. In this review we discuss the skin as a nanoparticle barrier, recent work in the field of nanoparticle drug delivery to the skin, and future directions currently being explored.
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