Food matrices as delivery units of nutrients in processed foods

Abstract

Processed food products (PFPs) are amply consumed and important sources of nutrients worldwide. Evaluating PFPs by their composition fails to recognize that nutrients are embedded in food matrices and processing modifies their nutritional functionality, for example, the bioaccessibility and bioavailability. PFPs with equivalent chemical composition may experience the “food matrix effect”: a difference in the nutritional outcome and health potential. This review presents food matrices attained after processing and their nutritional significance. It also delves into the complex kinetics of digestion conducive to nutrient release from matrices and nutrient interactions before absorption in the small intestine, and the role of microbial fermentation in the colon. Matrices of PFPs can be designed or redesigned and manufactured to be tasty, nutritious, sustainable, as special foods for vulnerable groups, innovative products from novel food sources, and to feed a healthy microbiota. The potential for nutritional improvement of PFPs is driven by understanding the food materials science and changes in food matrices during processing, control of formulation and manufacturing variables, the application of novel technologies, and a multifactor toolbox that supports the rational design of healthy food matrices.