The role of fermentation with lactic acid bacteria in quality and health effects of plant‐based dairy analogues

Abstract The modern food industry is undergoing a rapid change with the trend of production of plant‐based food products that are more sustainable and have less impact on nature. Plant‐based dairy analogues have been increasingly popular due to their suitability for individuals with milk protein allergy or lactose intolerance and those preferring a plant‐based diet. Nevertheless, plant‐based products still have insufficient nutritional quality, undesirable structure, and earthy, green, and bean‐like flavor compared to dairy products. In addition, most plant‐based foods contain lesser amounts of essential nutrients, antinutrients limiting the bioavailability of some nutrients, and allergenic proteins. Novel processing technologies can be applied to have a homogeneous and stable structure. On the other hand, fermentation of plant‐based matrix with lactic acid bacteria can provide a solution to most of these problems. Additional nutrients can be produced and antinutrients can be degraded by bacterial metabolism, thereby increasing nutritional value. Allergenic proteins can be hydrolyzed reducing their immunoreactivity. In addition, fermentation has been found to reduce undesired flavors and to enhance various bioactivities of plant foods. However, the main challenge in the production of fermented plant‐based dairy analogues is to mimic familiar dairy‐like flavors by producing the major flavor compounds other than organic acids, yielding a flavor profile similar to those of fermented dairy products. Further studies are required for the improvement of the flavor of fermented plant‐based dairy analogues through the selection of special microbial cultures and formulations.