防晒纳米颗粒对人体皮肤的渗透：新型微粉化氧化锌制剂的体外评估。

Human skin penetration of sunscreen nanoparticles: in-vitro assessment of a novel micronized zinc oxide formulation.

作者信息

Cross Sheree E, Innes Brian, Roberts Michael S, Tsuzuki Takuya, Robertson Terry A, McCormick Paul

机构信息

Therapeutics Research Unit, Southern Clinical Division, Department of Medicine, University of Queensland, Princess Alexandra Hospital, Woolloongabba, Australia.

出版信息

Skin Pharmacol Physiol. 2007;20(3):148-54. doi: 10.1159/000098701. Epub 2007 Jan 17.

DOI:10.1159/000098701

PMID:17230054

Abstract

The extent to which topically applied solid nanoparticles can penetrate the stratum corneum and access the underlying viable epidermis and the rest of the body is a great potential safety concern. Therefore, human epidermal penetration of a novel, transparent, nanoparticulate zinc oxide sunscreen formulation was determined using Franz-type diffusion cells, 24-hour exposure and an electron microscopy to verify the location of nanoparticles in exposed membranes. Less than 0.03% of the applied zinc content penetrated the epidermis (not significantly more than the zinc detected in receptor phase following application of a placebo formulation). No particles could be detected in the lower stratum corneum or viable epidermis by electron microscopy, suggesting that minimal nanoparticle penetration occurs through the human epidermis.

摘要

局部应用的固体纳米颗粒能够穿透角质层并进入下层的活表皮及身体其他部位的程度，是一个重大的潜在安全问题。因此，使用Franz型扩散池、24小时暴露以及电子显微镜来确定一种新型透明纳米颗粒氧化锌防晒制剂在人体表皮的渗透率，以验证纳米颗粒在暴露膜中的位置。涂抹的锌含量中不到0.03%穿透了表皮（并不显著高于涂抹安慰剂制剂后在接受相检测到的锌含量）。通过电子显微镜在角质层下层或活表皮中未检测到颗粒，这表明纳米颗粒透过人体表皮的渗透率极低。

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防晒纳米颗粒对人体皮肤的渗透：新型微粉化氧化锌制剂的体外评估。

Human skin penetration of sunscreen nanoparticles: in-vitro assessment of a novel micronized zinc oxide formulation.

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