铁和二氧化硅纳米颗粒大小对体外人体皮肤结合和渗透的影响

Toxicology Research and Application Pub Date : 2019-12-21 DOI:10.1177/2397847319893054

E. Jung, X. Hui, Hanjiang Zhu, Alissa Y. Zhang, Wei Wang, B. Buchholz, H. Maibach

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引用次数: 3

摘要

这项体外皮肤研究测定了四种[14C]标记的纳米颗粒(NPs): 12 nm Fe3O4、32 nm Fe3O4@SiO2、33 nm SiO2和78 nm SiO2在人体皮肤每层中的吸收、扩散和结合率。采用体外微透析装置和皮肤扩散系统分别测定4种不同理化性质的NPs在短时间(30 min)和长时间(24小时)暴露下与角质层(SC)的结合亲和力和进入/穿过皮肤层的通透性。结果表明，NP大小是影响NP经皮吸收的重要因素。12 nm Fe3O4 NPs到达SC和活表皮;32 nm Fe3O4@SiO2的核/壳NPs仅到达SC，而33 nm和78 nm的二氧化硅NPs则没有渗透到SC。用胶带剥离法对NP与SC的结合亲和力和皮肤药代动力学分析观察到相似的模式。结合亲和力测定可能是一种有效筛选NPs皮肤渗透的有效方法。

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Effect of iron and silica nanoparticles’ size on in vitro human skin binding and penetration

This in vitro skin study determined absorption, diffusion, and binding rates of four [14C]-labeled nanoparticles (NPs): 12 nm Fe3O4, 32 nm Fe3O4@SiO2, 33 nm SiO2, and 78 nm SiO2 in each layer of human cadaver skin. In vitro microdialysis device and flow-through skin diffusion system were used to measure the binding affinity to the stratum corneum (SC) and permeability into/through skin layer of the four NPs with different physical–chemical properties, respectively, in short (30 min) and/or long (24 hours) exposures. Results show that NP size is an important factor affecting NP percutaneous absorption. The 12 nm Fe3O4 NPs reached the SC and viable epidermis; 32 nm Fe3O4@SiO2 core/shell NPs only reached SC. However, 33 nm and 78 nm silica NPs did not permeate SC. Similar patterns were observed for NP binding affinity to SC and dermatopharmacokinetic analysis using the tape stripping method. The binding affinity determination may be a useful method to efficiently screen skin penetration of NPs.

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Toxicology Research and Application

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