Enhanced Technological and Permeation Properties of a Microencapsulated Soy Isoflavones Extract

Abstract Functional extracts from Soybean have numerous health benefits deriving from their content in isoflavones, especially daidzein and genistein, natural antioxidant and estrogen-like (ES-like) molecules. However, Soybeans denaturated dried extracts possess critical properties for industrial applications such as poor water-solubility and inadequate storage stability. The present research was aimed at developing a new Sodium-carboxymethylcellulose (NaCMC) matrix by spray-drying to microencapsulate soy extracts obtaining enhanced technological and permeation properties. Microparticles (NaCMC-Iso) loaded with marketed Soybeans extract (Iso), enriched in daidzein and genistein (about 90% w/w), were produced. Different liquid feeds, based on H2O/EtOH/acetone co-solvent systems, and various process parameters were tested to obtain a free-flowing and manageable powder with satisfying yield. The engineered NaCMC-Iso powders showed satisfying loading efficiency, high flow properties, good stability and enhanced technological properties. Interestingly, the in vitro dissolution and permeation rates were dramatically improved suggesting a higher bioavailability after the oral administration. The made-up powder appears a newsworthy ingredient of easier manipulation for enclosing in dietary supplements and nutraceutical products.