使用双通道微流控技术制备基于β-胡萝卜素纳米乳液的递送系统：物理和化学稳定性

Fabrication of β-carotene nanoemulsion-based delivery systems using dual-channel microfluidization: Physical and chemical stability.

作者信息

Luo Xiang, Zhou Yanyan, Bai Long, Liu Fuguo, Deng Yihui, McClements David Julian

机构信息

College of Pharmacy, Shenyang Pharmaceutical University, 103 Wenhua Road, Shenyang, Liaoning 110016, China; Biopolymers and Colloids Laboratory, Department of Food Science, University of Massachusetts, Amherst, MA 01003, USA.

Research and Development Department, Zhejiang Medicine Co., Ltd, Xinchang Pharmaceutical Factory, 59 East Huancheng Road, Shaoxing, Zhejiang 312500, China.

出版信息

J Colloid Interface Sci. 2017 Mar 15;490:328-335. doi: 10.1016/j.jcis.2016.11.057. Epub 2016 Nov 16.

DOI:10.1016/j.jcis.2016.11.057

PMID:27914331

Abstract

A considerable research effort is focused on developing effective delivery systems for hydrophobic nutraceuticals. β-carotene, a pro-vitamin A carotenoid, requires encapsulation to improve its water dispersibility and chemical stability in foods. In this study, β-carotene was encapsulated in oil-in-water nanoemulsions fabricated using high-pressure dual-channel microfluidization. Two types of natural emulsifier, quillaja saponins (Q-Naturale) and whey protein isolate (WPI), were capable of producing nanoemulsions (d=0.14-0.16μm) using this novel homogenization method. The physical and chemical stability of these nanoemulsions were characterized during storage at neutral pH conditions at refrigeration (4°C), ambient (25°C), and elevated (55°C) temperatures. At 4 and 25°C, all nanoemulsions remained physically stable throughout 14days storage, with little change in particle size or evidence of creaming. At 55°C, WPI nanoemulsions were also physically stable, but a small amount of droplet aggregation occurred in saponin nanoemulsions. The rate of β-carotene degradation increased with increasing storage temperature, but did not depend strongly on emulsifier type. This study showed that dual-channel microfluidization is an efficient method of continuously producing carotenoid-loaded nanoemulsions from natural emulsifiers. This knowledge may be useful for developing nutraceutical delivery systems for application within commercial food, beverage, and pharmaceutical products.

摘要

大量的研究工作集中在开发用于疏水性营养保健品的有效递送系统。β-胡萝卜素，一种维生素A原类胡萝卜素，需要进行包封以提高其在食品中的水分散性和化学稳定性。在本研究中，β-胡萝卜素被包封在使用高压双通道微流体制备的水包油纳米乳液中。两种天然乳化剂，皂树皂苷（Q-Naturale）和乳清蛋白分离物（WPI），能够使用这种新型均质化方法制备纳米乳液（d = 0.14 - 0.16μm）。在中性pH条件下于冷藏（4°C）、环境温度（25°C）和高温（55°C）储存期间，对这些纳米乳液的物理和化学稳定性进行了表征。在4°C和25°C下，所有纳米乳液在储存14天期间均保持物理稳定，粒径变化很小或没有出现分层现象。在55°C下，WPI纳米乳液也保持物理稳定，但皂苷纳米乳液中出现了少量液滴聚集。β-胡萝卜素的降解速率随储存温度的升高而增加，但并不强烈依赖于乳化剂类型。本研究表明，双通道微流技术是一种从天然乳化剂连续生产负载类胡萝卜素纳米乳液的有效方法。这些知识可能有助于开发用于商业食品、饮料和药品中的营养保健品递送系统。

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使用双通道微流控技术制备基于β-胡萝卜素纳米乳液的递送系统：物理和化学稳定性

Fabrication of β-carotene nanoemulsion-based delivery systems using dual-channel microfluidization: Physical and chemical stability.

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