UCIBIO, REQUIMTE, Laboratory of Pharmaceutical Technology/Centre of Research in Pharmaceutical Sciences, Faculty of Pharmacy, Porto University, Porto, Portugal.
UCIBIO, REQUIMTE, Laboratory of Toxicology, Department of Biological Sciences, Faculty of Pharmacy, Porto University, Porto, Portugal.
Colloids Surf B Biointerfaces. 2019 Jul 1;179:242-249. doi: 10.1016/j.colsurfb.2019.03.036. Epub 2019 Apr 3.
Lipid-based nanosystems, such as nanostructured lipid carriers (NLC) and nanoemulsions (NE) have been described as promising alternatives to conventional formulations for increase skin hydration. Besides, these systems have been used as efficient vehicles for lipophilic molecules that improve skin properties (e.g. vitamin E). In this study, we performed comparative investigations between hydrogels formulations containing vitamin E-loaded NLC (HG-NLC) and vitamin E-loaded nanoemulsion (HG-NE). The experiments started with particle size measurements, which showed no significant differences between nanoparticles/nanodroplets sizes after incorporation in the hydrogel net (386 nm vs. 397 nm for HG-NLC and 402 nm vs. 514 nm for HG-NE). Afterwards, in vitro biocompatibility studies in human keratinocytes were carried out, being observed that the lipid-based nanosystems were more cytotoxic for the cells before incorporation in the hydrogel. Finally, the formulations hydration potential and sensory attributes for skin application were evaluated by in vitro occlusion tests and in vivo human experiments. The results showed that the HG-NLC exhibited the best occlusive properties, whereas the HG-NE performed a faster skin hydration effect. Furthermore, the latter was selected as the most attractive for skin application, although the HG-NLC was described as more suitable to obtain a long-lasting effect. This study demonstrated the in vitro and in vivo safety and hydration potential of hydrogels containing vitamin E-loaded lipid-based nanosystems. These results establish a basis to assess the cutaneous use of these systems, despite more in vivo experiments, for longer periods and in more volunteers, are required before commercialization.
脂质纳米系统,如纳米结构脂质载体 (NLC) 和纳米乳剂 (NE),已被描述为提高皮肤水合作用的传统制剂的有前途的替代品。此外,这些系统已被用作改善皮肤特性的亲脂性分子的有效载体(例如维生素 E)。在这项研究中,我们对含有维生素 E 负载的 NLC(HG-NLC)和维生素 E 负载的纳米乳剂(HG-NE)的水凝胶配方进行了比较研究。实验首先进行了粒径测量,结果表明纳米颗粒/纳米液滴的尺寸在掺入水凝胶网络后没有显著差异(HG-NLC 为 386nm,HG-NE 为 397nm;HG-NLC 为 402nm,HG-NE 为 514nm)。之后,在人角质形成细胞中进行了体外细胞相容性研究,观察到脂质纳米系统在掺入水凝胶之前对细胞的细胞毒性更高。最后,通过体外封闭试验和体内人体试验评估了配方的保湿潜力和皮肤应用的感官属性。结果表明,HG-NLC 具有最佳的封闭性能,而 HG-NE 则具有更快的皮肤水合作用。此外,尽管 HG-NLC 被描述为更适合获得持久效果,但后者被选为最适合皮肤应用的制剂。这项研究证明了含有维生素 E 负载的脂质纳米系统的水凝胶的体外和体内安全性和保湿潜力。尽管需要更多的体内实验、更长的时间和更多的志愿者来进行商业化之前,这些结果为评估这些系统的皮肤使用奠定了基础。
