Encapsulated Probiotics: Potential Techniques and Coating Materials for Non-Dairy Food Applications

Encapsulated Probiotics: Potential Techniques and Coating Materials for Non-Dairy Food Applications

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The growing health awareness among consumers has increased the demand for non-dairy-based products containing probiotics.However, the incorporation of probiotics in non-dairy matrices is challenging, and probiotics tend to have a low survival rate in tonies jj audio play character from cocomelon these matrices and subsequently perform poorly in the gastrointestinal system.Encapsulation of probiotics with a physical barrier could preserve the survivability of probiotics and subsequently improve delivery efficiency to the host.

This article aimed to review the effectiveness of encapsulation techniques (coacervation, extrusion, emulsion, spray-drying, freeze-drying, fluidized bed coating, spray chilling, layer-by-layer, and co-encapsulation) and biomaterials (carbohydrate-, fat-, and protein-based) on the viability of probiotics under the harsh conditions of food processing, storage, and along the gastrointestinal passage.Recent studies on probiotic encapsulations using non-dairy food matrices, such as fruits, fruit and vegetable juices, fermented rice beverages, tea, jelly-like desserts, bakery products, sauces, and gum products, were also included in this review.Overall, co-encapsulation of probiotics with prebiotics was found to be effective in preserving the viability of probiotics in non-dairy food matrices.

Encapsulation techniques could add value and widen the application of probiotics in the non-dairy food market salamander chameleon and future perspectives in this area.