Produção Nacional
Revisado por pares
Spray dried insect protein-polyphenol particles deliver health-relevant value-added food ingredients
2024; Elsevier BV; Volume: 9; Linguagem: Inglês
10.1016/j.fufo.2024.100315
ISSN2666-8335
AutoresEdilene Souza da Silva, Jia Xiong, Fábio Gonçalves Macêdo de Medeiros, Mary H. Grace, Marvin Moncada, Mary Ann Lila, Roberta Targino Hoskin,
Tópico(s)Bee Products Chemical Analysis
ResumoA 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 ( 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.
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