橄榄油
深共晶溶剂
齐墩果酸
萃取(化学)
溶剂
色谱法
药物输送
化学
共晶体系
药品
材料科学
传统医学
有机化学
药理学
植物
医学
生物
替代医学
病理
合金
作者
Antonio Spennacchio,Giuseppe Francesco Racaniello,Gennaro Balenzano,Rosa Maria Iacobazzi,Angela Lopedota,Antonio Lopalco,Nunzio Denora
标识
DOI:10.1016/j.jddst.2024.106519
摘要
In this work is presented for the first time a new approach to extract the triterpene oleanolic acid (OA) from Olea Europaea L. leaves by using a lipophilic deep eutectic solvent (LipoDES) constituted of caprylic and lauric acid, as an alternative to conventional solvents, and formulate self-emulsifying drug delivery systems (SEDDSs), exploiting directly OA-containing LipoDES extract, to potentially improve the bioavailability of this BCS class IV bioactive molecule. LipoDES extract was characterized by using a HPLC technique which assessed the presence of OA in the extract and allowed us to quantify it. Subsequently, several preconcentrates were realized mixing the LipoDES extract, used as oily phase, with different surfactants (Cremophor RH-40 and Cremophor EL) and co-surfactants (Labrasol ALF and ethanol) which are well known for their self-emulsifying properties. After self-emulsification, the formulations were characterized by dynamic light scattering in terms of size and polydispersity index (PDI) to select the ones with proper characteristics. Three possible formulations (S A , S F and S I ) containing different amounts of extract were selected due to their low size and PDI and further investigated in terms of physical-chemical stability to temperature variations (stability at temperatures higher than 37 °C) and to dispersion and dilution in simulated gastrointestinal fluids. In vitro cytotoxicity and permeation studies were performed on CaCo-2 cells monolayer to prove the safety of SEDDSs and the ability of these systems to increase the permeability of OA. Bodipy alkyne dye (BDP) was selected as tracer in permeability studies, which highlighted an apparent permeability increase up to 10-fold for S A loaded with BDP (S A-BDP ) compared to BDP alone. Eventually, a one-month chemical stability study was conducted on S A , which resulted in being stable at least for that period of time if stored at 4 and 25 °C. This research highlights the potential dual use of LipoDES for extraction and formulation of bioactive compounds such as OA, resulting in a novel approach to innovative extraction and oral delivery of plant extracts. • A novel way to formulate an Oleanolic acid-containing extract combining DES and SEDDS technologies is presented. • The lipophilic DES extract was directly used as oily phase to realize SEDDSs. • A detailed characterization of SEDDSs systems was performed. • In vitro studies on Caco-2 cells confirmed safety of SEDDS and capability of enhancing permeability of loaded substances.
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