植物乳杆菌LN66的微胶囊化及其在不同包装条件下的生存潜力。

IF 3 4区 医学 Q2 CHEMISTRY, APPLIED
Min Zhang, Cheng Yin, Jing Qian
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引用次数: 2

摘要

制备植物乳杆菌LN66微胶囊,提高细胞在模拟胃肠道和不同包装条件下的活力。采用复聚后冷冻干燥法制备植物乳杆菌LN66微胶囊,通过水活度、含水量、大小、包封效率、SEM、FTIR、XRD以及不同包装条件下益生菌对模拟胃肠道的抗性和储存情况进行表征。微胶囊的粒径为196.57±1.46 μm,包封效率为75.26±1.95% (w/w)。模拟胃肠道条件后,包被细胞的活力分别为71.33±0.99% (w/w)和70.39±0.86% (w/w),而游离细胞的活力仅为45.45±0.5% (w/w)和8.59±0.67% (w/w)。与铝箔相比,在4°C和25°C的玻璃瓶中,活菌量分别增加了1.1倍和1.4倍。复合凝聚可以被认为是提高益生菌活力的一种合适的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microencapsulation of Lactobacillus plantarum LN66 and its survival potential under different packaging conditions.

Microcapsules of Lactobacillus plantarum LN66 were prepared to improve the cell viability in simulated gastrointestinal and different packaging conditions. Microcapsules containing Lactobacillus plantarum LN66 were produced by complex coacervation followed by freeze drying and characterised by water activity, moisture content, size, encapsulation efficiency, SEM, FTIR, XRD, as well as the resistance of probiotics to the simulated gastrointestinal tract and storage under different packaging conditions. The microcapsules presented the particle size of 196.57 ± 1.46 μm and the encapsulation efficiency of 75.26 ± 1.95% (w/w). After simulated gastrointestinal conditions, viability of encapsulated cells was 71.33 ± 0.99% (w/w) and 70.39 ± 0.86% (w/w), separately, while that of free cells was only 45.45 ± 0.5% (w/w) and 8.59 ± 0.67% (w/w). Compared with aluminium foil, the viable cells in glass bottles at 4 °C and 25 °C was increased 1.1-fold and 1.4-fold, respectively. Complex coacervation could be considered an appropriate alternative to increase the viability of probiotics.

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来源期刊
Journal of microencapsulation
Journal of microencapsulation 工程技术-工程:化工
CiteScore
6.30
自引率
2.60%
发文量
39
审稿时长
3 months
期刊介绍: The Journal of Microencapsulation is a well-established, peer-reviewed journal dedicated to the publication of original research findings related to the preparation, properties and uses of individually encapsulated novel small particles, as well as significant improvements to tried-and-tested techniques relevant to micro and nano particles and their use in a wide variety of industrial, engineering, pharmaceutical, biotechnology and research applications. Its scope extends beyond conventional microcapsules to all other small particulate systems such as self assembling structures that involve preparative manipulation. The journal covers: Chemistry of encapsulation materials Physics of release through the capsule wall and/or desorption from carrier Techniques of preparation, content and storage Many uses to which microcapsules are put.
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