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卵黄颗粒-卵磷脂复合体系稳定乳液中叶黄素的保留率和生物利用度提高。

Improved retention ratio and bioaccessibility of lutein loaded in emulsions stabilized by egg yolk granules-lecithin complex.

机构信息

State Key Laboratory of Food Science and Technology, Jiangnan University, Wuxi, China.

School of Food Science and Technology, Jiangnan University, Wuxi, Jiangsu, 214122, China.

出版信息

J Sci Food Agric. 2022 Sep;102(12):5153-5161. doi: 10.1002/jsfa.11867. Epub 2022 Mar 24.

DOI:10.1002/jsfa.11867
PMID:35288955
Abstract

BACKGROUND

Egg yolk granules (EYGs)-soy lecithin (SL) complex is a newly developed delivery system that is effective for improving the storage stability of hydrophobic bioactive compounds. However, the formation mechanism of EYGs and SL complex and its effect on the gastrointestinal fate of lutein-loaded emulsions needs to be investigated further.

RESULTS

Adding SL greatly improved the surface activity of the EYGs, as evidenced by reduced surface tension and an increased adsorption rate to the oil/water interface. Hydrophobic interaction was the dominant force in the formation of EYG-SL complex, with hydrogen and ionic bonds playing complementary roles. Using the EYG-SL complex, stable oil-in-water emulsions were formed and exhibited an enhanced retention ratio and bioaccessibility of lutein after simulated digestion. Correlation analysis demonstrated that the additional anti-oxidant activity as a result of EYGs was responsible for the high retention of lutein, whereas low surface tension facilitated the micellization of bioaccessible lutein.

CONCLUSION

The present study shows that the EYG and SL have a synergistic effect with respect to improving the retention ratio and bioaccessibility of lutein in emulsions stabilized by EYG-SL complex after digestion and this will guide the development of value-added oil-in-water emulsion products using protein-lecithin complex as a promising nutrient delivery vehicle. © 2022 Society of Chemical Industry.

摘要

背景

蛋黄颗粒(EYG)-大豆卵磷脂(SL)复合物是一种新开发的递送系统,可有效提高疏水性生物活性化合物的储存稳定性。然而,需要进一步研究 EYG 和 SL 复合物的形成机制及其对叶黄素负载乳液的胃肠道命运的影响。

结果

添加 SL 大大提高了 EYG 的表面活性,表现为表面张力降低和向油/水界面的吸附速率增加。疏水性相互作用是 EYG-SL 复合物形成的主要作用力,氢键和离子键起补充作用。使用 EYG-SL 复合物,可形成稳定的油包水乳液,并在模拟消化后表现出增强的叶黄素保留率和生物可及性。相关分析表明,由于 EYG 增加了额外的抗氧化活性,叶黄素的保留率较高,而较低的表面张力则有利于生物可及的叶黄素的胶束化。

结论

本研究表明,在 EYG-SL 复合物稳定的乳液消化后,EYG 和 SL 具有协同作用,可提高叶黄素的保留率和生物可及性,这将指导使用蛋白质-卵磷脂复合物作为有前途的营养传递载体开发增值的水包油乳液产品。 © 2022 英国化学学会。

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