There is an increasing interest in functional food formulations with added bioactive compounds, such as vitamins, probiotics, polyphenols and bioactive peptides, specifically in dairy and plant-based foods, bakery, and beverages. However, their stability in the food system, release rates and biological activity after consumption/digestion play an important role in the effectiveness of functional foods. There are technical challenges in maintaining the stability and acceptability of added compounds in the formulation design of food items. A novel approach to delivering bioactive compounds in functional foods is their microencapsulation, where stability-sensitive compounds are protected against their degradation during processing and physiological digestion, with targeted release in the gastrointestinal tract (GIT) and elicited cellular responses. Microencapsulation of bioactive compounds has been proven to be beneficial in in vitro models for the stability, antioxidant and immunomodulatory action, and acceptability compared to free (non-capsulated) forms. This technology is worth considering relative to the protection of health benefits of compounds used in food products, with their necessary bioactivity after physiological digestion in GIT. This article reviews important bioactive compounds, challenges, and strategies in the development of functional foods to ensure the required stability for the bioavailability of added compounds.
Edkaidek et al. (Thu,) studied this question.