The performance of probiotic bacterial strains is influenced by the carrier food and its functional components which while buffering the probiotic through the gastro-intestinal tract, contribute to an efficient implantation of bacterial cells and regulate probiotic features. Particularly, plant-based matrices are eligible substrate for hosting and delivering microbial populations because of their richness in nutrients, fibers, vitamins, minerals and dietary bioactive phytochemicals. The available data indicate that the intrinsic health-promoting properties of diverse plant-based matrices can be successfully exploited and improved developing effective association with probiotics, whose beneficial activity could be in turn improved and modulated by components of the plant-based carrier. In this review, the health-promoting properties of solid plant-based matrices (particularly artichokes, table olives, apple and cabbage) and their association with probiotic bacteria are also described indicating the role of the food matrix in sustaining probiotic cells during product processing, digestive process, gut implantation, and finally in exerting beneficial effects.
Probiotic bacteria and plant-based matrices: An association with improved health-promoting features
Palmira De Bellis;Angelo Sisto;Paola Lavermicocca
2021
Abstract
The performance of probiotic bacterial strains is influenced by the carrier food and its functional components which while buffering the probiotic through the gastro-intestinal tract, contribute to an efficient implantation of bacterial cells and regulate probiotic features. Particularly, plant-based matrices are eligible substrate for hosting and delivering microbial populations because of their richness in nutrients, fibers, vitamins, minerals and dietary bioactive phytochemicals. The available data indicate that the intrinsic health-promoting properties of diverse plant-based matrices can be successfully exploited and improved developing effective association with probiotics, whose beneficial activity could be in turn improved and modulated by components of the plant-based carrier. In this review, the health-promoting properties of solid plant-based matrices (particularly artichokes, table olives, apple and cabbage) and their association with probiotic bacteria are also described indicating the role of the food matrix in sustaining probiotic cells during product processing, digestive process, gut implantation, and finally in exerting beneficial effects.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.