食品科学 ›› 2026, Vol. 47 ›› Issue (11): 437-449.doi: 10.7506/spkx1002-6630-20251207-066

• 专题论述 • 上一篇    

植物材料在益生菌包埋递送系统的研究进展:包埋技术、材料特性与应用

郭子萌,李雯晖,黄雄超,季国志,母智深   

  1. (1.内蒙古蒙牛乳业(集团)股份有限公司全球研发创新中心,内蒙古 呼和浩特 011500;2.内蒙古自治区乳品营养健康与安全企业重点实验室,内蒙古 呼和浩特 011500)
  • 发布日期:2026-07-02

Research Advances in Plant Materials for Probiotic Delivery Systems: Encapsulation Techniques, Material Properties and Applications

GUO Zimeng, LI Wenhui, HUANG Xiongchao, JI Guozhi, MU Zhishen   

  1. (1. Global R&D Innovation Center, Inner Mongolia Mengniu Dairy (Group) Co. Ltd., Hohhot 011500, China; 2. Inner Mongolia Enterprise Key Laboratory of Dairy Nutrition, Health & Safety, Hohhot 011500, China)
  • Published:2026-07-02

摘要: 益生菌在加工、储存以及胃肠道递送的过程中,易受温度、氧气、胃酸和胆盐等因素的影响,导致其存活率与生物活性下降,这是限制其益生功效充分发挥的核心挑战。采用载体包埋技术是提高益生菌耐受性、保障其高效肠道靶向递送的有效策略。近年来,随着对可持续与环保型材料需求的日益增长,植物材料因其良好的凝胶性、乳化性和成膜性等特性,在益生菌包埋领域展现出显著优势。本文系统综述常用于益生菌包埋的递送技术,阐明其工艺特点与应用局限;重点分析植物蛋白质、多糖及脂质在递送载体中的功能特性,以及评估其对肠道靶向递送的效果;进一步比较不同植物材料与递送技术的适配性。最后,总结植物基包埋益生菌在食品领域的实际应用案例,以期为未来可持续包埋材料的定向设计与开发提供理论参考与实践指导。

关键词: 益生菌;递送载体;植物材料;食品应用

Abstract: Probiotics are susceptible to various factors such as temperature, oxygen, gastric acid, and bile salts during processing, storage, and gastrointestinal delivery, which often leads to reduced viability and bioactivity. This remains a core challenge hindering probiotics limiting the full exertion of their health-beneficial effects. Carrier encapsulation technology is considered an effective strategy to enhance the tolerance of probiotics and ensure their efficient intestinal-targeted delivery. In recent years, with the growing demand for sustainable and environmentally friendly materials, plant-based ingredients have demonstrated remarkable advantages in the field of probiotic encapsulation owing to their favorable gelation, emulsification, and film-forming properties. This article systematically reviews the encapsulation technologies commonly used for probiotic delivery and elucidates their characteristics and application limitations. It focuses on analyzing the functional properties of plant proteins, polysaccharides, and lipids in delivery carriers, as well as evaluating their effects on intestinal targeted delivery. Furthermore, the compatibility between different plant-based materials and delivery technologies is compared. Finally, the practical applications of plant-based encapsulated probiotics in the food sector are summarized, aiming to provide theoretical insights and practical guidance for the targeted design and development of sustainable encapsulation materials.

Key words: probiotics; delivery systems; plant materials; food applications

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