期刊
FOODS
卷 11, 期 1, 页码 -出版社
MDPI
DOI: 10.3390/foods11010065
关键词
lutein; sodium caseinate; acetylated mung bean starch; microcapsule
资金
- National Key R&D Program Subproject of China [2017YFD0401203-01]
This study investigated the preparation and properties of lutein emulsions and microcapsules using different ratios of sodium caseinate to acetylated mung bean starch. The results showed that increasing the sodium caseinate content improved the emulsion effect and the yield and solubility of microcapsules, while reducing the particle size. The encapsulation efficiency of lutein microcapsules ranged from 69.72% to 89.44%. The thermal analysis revealed an endothermic transition temperature of approximately 125 degrees Celsius for the lutein microcapsules. Microcapsules with sodium caseinate as the single wall material exhibited the lowest stability.
Lutein is a kind of vital carotenoid with high safety and significant advantages in biological functions. However, poor water solubility and stability of lutein have limited its application. This study selected different weight ratios of sodium caseinate to acetylated mung bean starch (10:0, 9:1, 7:3, 5:5, 3:7, 1:9, and 0:10) to prepare lutein emulsions, and the microcapsules were produced by spray drying technology. The microstructure, physicochemical properties, and storage stability of microcapsules were investigated. The results show that the emulsion systems were typical non-Newtonian fluids. Lutein microcapsules were light yellow fine powder with smooth and relatively complete particle surface. The increase of sodium caseinate content led to the enhanced emulsion effect of the emulsion and the yield and solubility of microcapsules increased, and wettability and the average particle size became smaller. The encapsulation efficiency of lutein microcapsules ranged from 69.72% to 89.44%. The thermal characteristics analysis showed that the endothermic transition of lutein microcapsules occurred at about 125 degrees C. The microcapsules with sodium caseinate as single wall material had the worst stability. Thus, it provides a reference for expanding the application of lutein in food, biological, pharmaceutical, and other industries and improving the stability and water dispersion of other lipid-soluble active ingredients.
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