Boryeong Lee, Lakshmishri Prabakaran, Minkyoung Jang, Song Hua Xuan, Kyounghee Shin, Sung Ho Lee, Jin Woong Kim
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引用次数: 0
Abstract
This study presents intercellular lipid-based Pickering emulsions (ILPEs) comprising a core of intercellular lipids (ILs) and an exterior solid layer of hectorite nanoplatelets (HNPs), formulated via an oil-in-water (O/W) Pickering emulsion technique to augment dermal penetration and moisture retention. Cationic surfactant-modified HNPs electrostatically interacted with stearic acid and ILs, forming robust, organized lamellar structures at the O/W interface and within the core. HNP integration into the IL matrix significantly elevated the interfacial modulus, enhancing emulsion stability. HNP- and SA-modified ILPEs demonstrated uniform distribution of a proxy drug across porcine epidermis to a depth of 20 μm, maintaining approximately 50% hydration after 72 h. These findings underscore the potential of ILPEs for cutaneous applications, offering superior stability, epidermal penetration, and improved stratum corneum hydration.
本研究介绍了基于细胞间脂质的皮克林乳液(ILPEs),该乳液由细胞间脂质(ILs)核心和蛭石纳米颗粒(HNPs)外固层组成,通过水包油(O/W)皮克林乳液技术配制而成,可增强真皮渗透性和保湿度。阳离子表面活性剂修饰的 HNPs 与硬脂酸和 IL 发生静电作用,在水包油界面和核心内形成了坚固、有序的片状结构。HNP 与 IL 基质的结合大大提高了界面模量,增强了乳液稳定性。HNP和SA修饰的ILPE在猪表皮均匀分布,深度达20微米,72小时后仍保持约50%的水合作用。
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