微胶囊包埋沙丁鱼油：香草酸接枝壳聚糖作为生物功能壁材料的应用。

Microencapsulation of sardine oil: Application of vanillic acid grafted chitosan as a bio-functional wall material.

机构信息

ICAR-Central Institute of Fisheries Technology (CIFT), Matsyapuri P.O, Kerala-682029, India.

出版信息

Carbohydr Polym. 2017 Oct 15;174:540-548. doi: 10.1016/j.carbpol.2017.06.076. Epub 2017 Jun 24.

DOI:10.1016/j.carbpol.2017.06.076

Abstract

Vanillic acid grafted chitosan (Va-g-Ch) was evaluated as a new antioxidant wall material for microencapsulation of polyunsaturated fatty acid rich sardine oil. A high grafting ratio of 305mg vanillic acid equivalent/g of polymer was achieved using a free radical mediated grafting reaction. Oil in water emulsion was prepared with an optimised combination of Va-g-Ch and Tween 20 (3.2:1). Sardine oil loaded microparticles (SO-M) were produced (∼75% yield) by spray drying. The average diameter and polydispersity Index (PDI) of the particles were found to be 2.3μ and 0.345. XRD spectra of SO-M showed reduction in crystallinity due to microencapsulation. After four weeks of storage, a moderate (∼12%) decrease in the EPA and DHA content and a low PV of 5.5±0.51meq/kg oil in SO-M demonstrated good oxidative stability. Satisfactory encapsulation efficiency (84±0.84%) and loading efficiency (67±0.51%) values, also demonstrated the suitability of Va-g-Ch for microencapsulation of sardine oil.

摘要

香草酸接枝壳聚糖（Va-g-Ch）被评估为一种新的抗氧化壁材，用于包埋富含多不饱和脂肪酸的沙丁鱼油。通过自由基介导的接枝反应，实现了高达 305mg 香草酸当量/g 聚合物的高接枝率。采用优化的 Va-g-Ch 和 Tween 20（3.2:1）组合制备水包油乳液。通过喷雾干燥生产出负载沙丁鱼油的微球（约 75%产率）。颗粒的平均直径和多分散指数（PDI）分别为 2.3μm 和 0.345。SO-M 的 XRD 图谱显示微封装导致结晶度降低。在储存 4 周后，SO-M 中的 EPA 和 DHA 含量适度（约 12%）下降，过氧化值（PV）为 5.5±0.51meq/kg 油，表明具有良好的氧化稳定性。令人满意的包封效率（84±0.84%）和负载效率（67±0.51%）值也证明了 Va-g-Ch 适用于沙丁鱼油的微封装。

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微胶囊包埋沙丁鱼油：香草酸接枝壳聚糖作为生物功能壁材料的应用。

Microencapsulation of sardine oil: Application of vanillic acid grafted chitosan as a bio-functional wall material.

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