2024 journal article
Spray dried insect protein-polyphenol particles deliver health-relevant value-added food ingredients
FUTURE FOODS, 9.
author keywords: Alternative protein; Cricket; Food ingredients; Revalorization
doi.org (publisher)
Source: Web Of Science
Added: April 8, 2024
A novel strategy to create value-added insect protein-derived ingredients is presented in this study. Spray dried protein-polyphenol particles were produced using aqueous polyphenol extracts of rosemary (RM) or muscadine grape pomace (MG) complexed with insect protein (IP) alone or blended with pea protein 50:50 (IPP). The spray drying process was evaluated (solids recovery SR and polyphenol retention PR) and the four experimental protein-polyphenol treatments IP–RM, IP-MG, IPP–RM and IPP–MG were characterized regarding their physicochemical, bioactivity, functional, bioaccessibility and thermal stability properties. Higher SR (53.7-53.3%) and PR (53.1 – 62.5%) were observed for IPP-derived particles (p<0.05). Particles had water activity in the microbiologically stable range (0.24-0.32) and high protein content (29.5%-38.3%) All particles had low hygroscopicity (<15%) and solubility between 44-52.83%. Remarkably high phenolic content (>68.5 mg GAE/g) was shown for MG-derived particles. Good emulsifying activity (1.85 to 16.46 m2/g) and emulsifying stability (> 60%), foaming capacity (4 – 57%) and foaming stability (2.0-37.3%) were observed for all insect protein-polyphenol particles. Differently from MG-derived particles, RM-derived treatments showed higher polyphenol bioaccessibility than non-complexed polyphenols (p<0.05). Overall, our study demonstrates that spray drying microencapsulation is an efficient strategy to produce attractively colored, value-added functional protein-polyphenol ingredients using insect protein.
