Due to exceptional nutritional quality, quinoa is an ideal candidate to solve food insecurity in many countries. Quinoa's profile of polyphenols, essential amino acids, and lipids make it ideal for digestive health. How the nutrient profile and bioavailability of quinoa metabolites differs across cooking methods such as heat, pressure, and time employed has yet to be elucidated. The objective of this review is to compile available research pertaining to the impact of various cooking methods on quinoa's nutritional properties with specific emphasis on how those properties affect gut health. Replacing small percentages of wheat flour with quinoa flour in baked bread increases the antioxidant activity, essential amino acids, fiber, minerals, and polyphenols. Extruding quinoa flour reduces amino acid, lipid, and polyphenol content of the raw seed, however direct quinoa and cereal grain extrudate comparisons are absent. Boiling quinoa leads to an increase of dietary fiber as well as exceptional retention of amino acids, lipids, and polyphenols. Baking and extruding with quinoa flour results in less optimal texture due to higher density, however minor substitutions can retain acceptable texture and even improve taste. Future research on quinoa's substitution in common processing methods will create equally desirable, yet more nutritious food products.
Keywords: Food processing; Gastrointestinal health; Gut microbiota; Quinoa.