使用天然生物聚合物（乳清分离蛋白和阿拉伯胶）制备基于纳米乳液的维生素E递送系统并实现其稳定化

Formation and stabilization of nanoemulsion-based vitamin E delivery systems using natural biopolymers: Whey protein isolate and gum arabic.

作者信息

Ozturk Bengu, Argin Sanem, Ozilgen Mustafa, McClements David Julian

机构信息

Department of Food Science, University of Massachusetts, Chenoweth Laboratory, Amherst, MA, USA; Department of Chemical Engineering, Yeditepe University, Kayisdagi, Istanbul, Turkey.

Department of Food Engineering, Yeditepe University, Kayisdagi, Istanbul, Turkey.

出版信息

Food Chem. 2015 Dec 1;188:256-63. doi: 10.1016/j.foodchem.2015.05.005. Epub 2015 May 2.

DOI:10.1016/j.foodchem.2015.05.005

PMID:26041190

Abstract

Natural biopolymers, whey protein isolate (WPI) and gum arabic (GA), were used to fabricate emulsion-based delivery systems for vitamin E-acetate. Stable delivery systems could be formed when vitamin E-acetate was mixed with sufficient orange oil prior to high pressure homogenization. WPI (d32=0.11 μm, 1% emulsifier) was better than GA (d32=0.38 μm, 10% emulsifier) at producing small droplets at low emulsifier concentrations. However, WPI-stabilized nanoemulsions were unstable to flocculation near the protein isoelectric point (pH 5.0), at high ionic strength (>100mM), and at elevated temperatures (>60 °C), whereas GA-stabilized emulsions were stable. This difference was attributed to differences in emulsifier stabilization mechanisms: WPI by electrostatic repulsion; GA by steric repulsion. These results provide useful information about the emulsifying and stabilizing capacities of natural biopolymers for forming food-grade vitamin-enriched delivery systems.

摘要

天然生物聚合物，即乳清蛋白分离物（WPI）和阿拉伯胶（GA），被用于制备基于乳液的维生素E-醋酸酯递送系统。当维生素E-醋酸酯在高压均质化之前与足量的橙油混合时，可以形成稳定的递送系统。在低乳化剂浓度下产生小液滴方面，WPI（d32 = 0.11μm，1%乳化剂）比GA（d32 = 0.38μm，10%乳化剂）表现更好。然而，WPI稳定的纳米乳液在蛋白质等电点（pH 5.0）附近、高离子强度（>100mM）以及高温（>60°C）时对絮凝不稳定，而GA稳定的乳液则是稳定的。这种差异归因于乳化剂稳定机制的不同：WPI通过静电排斥；GA通过空间位阻排斥。这些结果为天然生物聚合物在形成食品级富含维生素的递送系统中的乳化和稳定能力提供了有用信息。

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使用天然生物聚合物（乳清分离蛋白和阿拉伯胶）制备基于纳米乳液的维生素E递送系统并实现其稳定化

Formation and stabilization of nanoemulsion-based vitamin E delivery systems using natural biopolymers: Whey protein isolate and gum arabic.

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