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Impact of composite gelators on physicochemical properties of oleogels and astaxanthin delivery of oleogel-based nanoemulsions

Tianhang Xia, Zihao Wei, Changhu Xue

2021LWT42 citationsDOIOpen Access PDF

Abstract

In this study, binary systems of carnauba wax (CW) and 1-docosanol (DS) were first explored to enhance the properties of oleogels. Compared to the corresponding single component oleogels (0:5 and 5:0), a synergistic effect of oleogel strength was observed at CW:DS ratios of 1:4 (C1D4). At this ratio, the formed oleogel showed the highest hardness, rheological property and oil binding ability. Meanwhile, the gel-sol melting temperature of this oleogel at this ratio was lower than most of others. Subsequently, the effect of composite gelators on the astaxanthin delivery of oleogel-based nanoemulsion was explored. The oleogels at CW:DS ratios of 1:4, 0:5 and 5:0 were chosen to prepare oleogel-based nanoemulsions. The oleogel-based nanoemulsion formulated with C1D4 had the largest droplet size. In vitro digestion study revealed that although C1D4 oleogel-based nanoemulsion could not improve the extent of lipolysis, it could significantly improve astaxanthin bioaccessibility when compared with the other two oleogel-based nanoemulsions. This study developed a new formula of oleogel-based nanoemulsion with improved astaxanthin bioaccessibility. This novel formulation approach might also be suitable for other hydrophobic nutraceuticals and provided a new idea for the preparation of oleogel-based nanoemulsions with improved nutraceutical bioaccessibility.

Topics & Concepts

AstaxanthinComposite numberWaxNutraceuticalChemistryFood scienceMaterials scienceChemical engineeringCarotenoidOrganic chemistryComposite materialEngineeringFood Chemistry and Fat AnalysisBiochemical Analysis and Sensing TechniquesProteins in Food Systems
Impact of composite gelators on physicochemical properties of oleogels and astaxanthin delivery of oleogel-based nanoemulsions | Litcius