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以金枪鱼红肉水解物为核心和壁材聚合物的鱼油包封:比较分析

Tuna red meat hydrolysate as core and wall polymer for fish oil encapsulation: a comparative analysis.

作者信息

Unnikrishnan Parvathy, Puthenveetil Kizhakkethil Binsi, Annamalai Jeyakumari, Ninan George, Aliyamveetil Abubacker Zynudheen, Chandragiri Nagarajarao Ravishankar

机构信息

1ICAR-Central Institute of Fisheries Technology, Kochi, 682029 India.

Mumbai Research Centre of ICAR-CIFT, Vashi, Navi Mumbai, 400703 India.

出版信息

J Food Sci Technol. 2019 Apr;56(4):2134-2146. doi: 10.1007/s13197-019-03694-w. Epub 2019 Mar 14.

DOI:10.1007/s13197-019-03694-w
PMID:30996447
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6443975/
Abstract

Microencapsulation by spray drying is a well-accepted technique for fish oil stabilization. However, severe operational conditions during atomisation destabilise the emulsion, leading to capsule collapse and induction of auto-oxidation. Hence, use of food grade cross-linkers to strengthen the wall material and antioxidants to prevent lipid oxidation has been suggested. A promising option in this line is the use of bioactive peptides, which ensure oxidative stability through structural and chemical stabilisation. Present study attempted to compare the efficacy of yellowfin tuna red meat hydrolysate in protecting the core sardine oil, when used as wall and core polymer during encapsulation. Encapsulates were characterised based on morphological and physical parameters, as well as by in vitro digestibility studies. Their storage stability was also compared under accelerated (60 °C), chilled (4 °C) and ambient conditions (28 °C). Tuna protein hydrolysate exhibited significantly higher protective efficacy when used as core polymer rather than in the wall matrix of encapsulates.

摘要

喷雾干燥微胶囊化是一种被广泛认可的鱼油稳定化技术。然而,雾化过程中的严苛操作条件会使乳液不稳定,导致胶囊塌陷并引发自动氧化。因此,有人建议使用食品级交联剂来强化壁材,并使用抗氧化剂来防止脂质氧化。在这方面,一个有前景的选择是使用生物活性肽,它通过结构和化学稳定作用确保氧化稳定性。本研究试图比较黄鳍金枪鱼红肉水解物在用作微胶囊化过程中的壁材和芯材聚合物时,对核心沙丁鱼油的保护效果。基于形态和物理参数以及体外消化率研究对微胶囊进行了表征。还在加速(60°C)、冷藏(4°C)和环境条件(28°C)下比较了它们的储存稳定性。金枪鱼蛋白水解物用作芯材聚合物时表现出显著更高的保护效果,而不是用作微胶囊的壁材基质时。

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