University of Vienna, Department of Pharmaceutical Technology and Biopharmaceutics, Vienna, Austria.
Eur J Pharm Biopharm. 2011 Sep;79(1):58-67. doi: 10.1016/j.ejpb.2011.01.010. Epub 2011 Jan 26.
Nanoemulsions aimed at dermal drug delivery are usually stabilised by natural lecithins. However, lecithin has a high tendency towards self-aggregation and is prone to chemical degradation. Therefore, the aim of this study was to develop nanoemulsions with improved structure and long-term stability by employing a natural sucrose ester mixture as sole surfactant. A thorough comparison between the novel sucrose stearate-based nanoemulsions and corresponding lecithin-based nanoemulsions revealed that the sucrose ester is superior in terms of emulsifying efficiency, droplet formation as well as physical and chemical stability. The novel formulations exhibited a remarkably homogeneous structure in cryo TEM investigations, as opposed to the variable structure observed for lecithin-based systems. The in vitro skin permeation rates of lipophilic drugs from sucrose stearate nanoemulsions were comparable to those obtained with their lecithin-based counterparts. Furthermore, it was observed that addition of γ-cyclodextrin led to enhanced skin permeation of the steroidal drug fludrocortisone acetate from 9.99±0.46 to 55.10±3.67 μg cm(-2) after 24 h in the case of sucrose stearate-based systems and from 9.98±0.64 to 98.62±24.89 μg cm(-2) after 24 h in the case of lecithin-based systems. This enhancement effect was significantly stronger in formulations based on lecithin (P<0.05), which indicates that synergistic mechanisms between the surfactant and the cyclodextrin are involved. Cryo TEM images suggest that the cyclodextrin is incorporated into the interfacial film, which might alter drug release rates and improve the droplet microstructure.
旨在用于经皮药物递送的纳米乳剂通常通过天然卵磷脂稳定。然而,卵磷脂具有较高的自聚集倾向,并且易于化学降解。因此,本研究的目的是通过使用天然蔗糖酯混合物作为唯一的表面活性剂来开发具有改进的结构和长期稳定性的纳米乳剂。新型蔗糖硬脂酸酯基纳米乳剂与相应的卵磷脂基纳米乳剂的全面比较表明,蔗糖酯在乳化效率、液滴形成以及物理和化学稳定性方面均具有优势。在低温 TEM 研究中,新型制剂表现出明显均匀的结构,而卵磷脂基体系则表现出可变的结构。从蔗糖硬脂酸酯纳米乳剂中亲脂性药物的体外皮肤渗透速率与从其卵磷脂基对应物获得的渗透速率相当。此外,观察到添加γ-环糊精会导致来自蔗糖硬脂酸酯纳米乳剂的甾体药物醋酸氟氢可的松的皮肤渗透增强,在 24 小时时从 9.99±0.46 到 55.10±3.67 μg cm(-2),而在 24 小时时从 9.98±0.64 到 98.62±24.89 μg cm(-2)。在基于卵磷脂的制剂中,这种增强作用明显更强(P<0.05),这表明表面活性剂和环糊精之间存在协同机制。低温 TEM 图像表明,环糊精被掺入界面膜中,这可能会改变药物释放速率并改善液滴微观结构。
