Litcius/Paper detail

Functional foods with a tailored glycemic response based on food matrix and its interactions: Can it be a reality?

Debarati Mondal, Monika Awana, Shreya Mandal, Kangkan Pandit, Archana Singh, Cyprian O. Syeunda, Sijo Joseph Thandapilly, Veda Krishnan

2024Food Chemistry X12 citationsDOIOpen Access PDF

Abstract

Functional foods are considered the future of nutrition because they benefit human health and environmental sustainability. They offer natural solutions for managing post-prandial glycemia and its long-term consequences. Therefore, understanding the composition and inherent dynamics of the functional food matrix (FM) is crucial. Within the FM, components like proteins, fats, carbohydrates, phenolic compounds, fibres, and minor elements interact dynamically, highlighting how individual components within the system behave. This review highlights the significance of diverse FM interactions in modulating inherent glycemic potential (IGP). These interactions comprise major binary, ternary, quaternary interactions, and minor interactions, in contemporary functional food formulations that include starch-derived additives, biopeptides, and flavouring agents. The starch quality matrix (SQM), a prediction model for customised functional foods with low IGP, has been briefed as a pilot concept. We also investigate the impact of these interactions on gut health, fill in the knowledge gaps, and provide recommendations for further study.

Topics & Concepts

Functional foodSustainabilityGlycemic indexTernary operationGlycemicStarchBiochemical engineeringMatrix (chemical analysis)Computer scienceFood scienceChemistryBiotechnologyBiologyEngineeringEcologyInsulinProgramming languageChromatographyFood composition and propertiesSensory Analysis and Statistical MethodsMicrobial Metabolites in Food Biotechnology