Enhanced bioaccessibility of interfacial delivered oleanolic acid through self-constructed Pickering emulsion: Effects of oil types
[Display omitted] •Oil types influence emulsion interfacial delivery system (EIDS) stability in digestion.•First study on different chain length oil types’ effects on EIDS characteristics.•Long chain fatty acids help to improve the bioaccessibility of Oleanolic acid (OA).•The carrier oil of self-sta...
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Veröffentlicht in: | Food research international 2024-09, Vol.191, p.114708, Article 114708 |
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•Oil types influence emulsion interfacial delivery system (EIDS) stability in digestion.•First study on different chain length oil types’ effects on EIDS characteristics.•Long chain fatty acids help to improve the bioaccessibility of Oleanolic acid (OA).•The carrier oil of self-stabilizing EIDE can regulate the bioaccessibility of OA.
Pentacyclic triterpenes have attracted much attention because of their many bioactivities, but their bioaccessibility is low. Oleanolic acid (OA) was used in this study as a typical edible pentacyclic triterpene. In this work, we proposed an OA interfacial delivery model based on W/O Pickering emulsion, and investigated the effects of different oil types on the emulsion properties and OA bioaccessibility of the OA W/O Pickering emulsion interfacial delivery system (EIDS). Medium chain triglyceride (MCT), long chain triglycerides (LCT) and MCT/LCT (1:1, w/w) were selected as carrier oils for the preparation of emulsions, respectively. The results showed that the emulsions formed from LCT had smaller particle sizes, which increased the deformation resistance of the emulsions and exhibited good stability during the simulated in vitro digestion. The extent of free fatty acid (FFA) release during oil digestion was MCT (103.32 ± 3.74 %) > M/L (97.89 ± 2.89 %) > LCT (71.41 ± 6.64 %). Of interest, the bioaccessibility of OA was influenced by the carrier oil: LCT (59.34 ± 2.55 %) > M/L (47.35 ± 6.25 %) > MCT (13.11 ± 1.40 %) > PBS (7.11 ± 1.74 %), and such a difference was mainly attributed to the greater solubilisation of OA in mixed micelles consisting of long-chain fatty acids. In summary, the size of hydrophobic domains in the mixed micelles produced a greater effect than the effect of FFA release on OA bioaccessibility. This study provides a theoretical basis for the interfacial delivery of OA and the enhancement of OA bioaccessibility based on W/O Pickering emulsions with different oil types. |
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ISSN: | 0963-9969 1873-7145 1873-7145 |
DOI: | 10.1016/j.foodres.2024.114708 |