Multilayer coatings containing red ginseng dietary fibre improve the survivability and stability of probiotic bacteria

Abstract

SummaryMaintaining the viability of probiotics is critical for maximising their functionality. In this study, tara gum, basic amino acids, rice protein and red ginseng dietary fibre were sequentially applied to encapsulate various probiotic strains to improve their viability and enhance their adhesion to intestinal cells. Compared with uncoated control strains, multilayer‐coated probiotic strains exhibited higher survival rates under low pH conditions (maximum survival: 81.8% for Lactobacillus casei) and bile acid conditions (>50% survival for Lactobacillus rhamnosus). Multicoating also increased the ability of probiotic strains to adhere to intestinal epithelial cells. For example, encapsulated L. reuteri exhibited 56.9% adhesion, which was approximately four‐fold higher than that of the uncoated strain. Moreover, compared with the uncoated strains, multicoated strains exhibited significantly improved storage stability under various temperatures after freeze‐drying. Therefore, the quadruple‐coating technology used in this study enhances the viability and stability of probiotic strains, which is a key advantage from the industrial perspective.