角质层
渗透
人体皮肤
材料科学
体外
聚合物
生物物理学
磁导率
皮肤当量
生物医学工程
化学
渗透剂(生化)
透皮
皮肤屏障
猪皮
表皮(动物学)
扩散
人造皮肤
合成膜
纳米技术
势垒函数
色谱法
化学工程
树枝状大分子
作者
Bo Liu,Yan Zheng,Guangyi Wu,Kaili Liang,Liyan Wang,Liju Yu,Hua Chen,Li Yang,Qing Wang
标识
DOI:10.1088/1758-5090/ae7207
摘要
The development of reliable in vitro models for stratum corneum (SC) permeation studies remains a significant challenge. Ethical constraints, interspecies disparities, and inter-individual variability in skin underscore the need for standardized skin equivalents with significant research and commercial value. Conventional artificial skin models typically lack the characteristic "brick-and-mortar" structure of the SC, the primary barrier of the skin, leading to measurable functional deviations from native tissue. To address this gap, we developed a biomimetic stratum corneum (ASC) that faithfully replicates the brick-and-mortar structure of the human SC. Polymer microspheres of a size mimicking corneocytes-composed of an optimized ternary polycaprolactone/poly(methyl methacrylate)/polyhydroxybutyrate blend-served as "bricks" embedded within a lipid-based "mortar" via a thermally assisted compression molding process. The resulting ASC demonstrated barrier properties comparable to those of excised human epidermis (HEM). Permeability coefficients for five model drugs of diverse properties showed a Pearson's correlation of r > 0.99 between ASC and HEM. Molecular simulations further elucidated the enhanced intermolecular interactions and restricted drug diffusion within the optimized polymer matrix. Furthermore, the ASC exhibited storage stability, maintaining consistent barrier properties over four weeks at -20°C. This structurally biomimetic ASC represents a promising, predictive, and animal-free platform for in vitro permeation testing.
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