Litcius/Paper detail

Enhanced viability and membrane lipid stability of cholesterol-lowering probiotics through spray drying encapsulation with whey protein isolate-coconut oil complex

Narisara Ngamekaue, Thatchawan Dumrongchai, Akkaratch Rodklongtan, Pakamon Chitprasert

2024Drying Technology10 citationsDOI

Abstract

This study assessed the effect of whey protein isolate (WPI) and its coconut oil complexes (CO-WPI) on the viability of Limosilactobacillus reuteri KUB-AC5 during spray drying and storage. Varied CO concentrations (0%, 4%, and 8%, w/w) and spray drying temperatures (110 °C and 130 °C) influenced secondary structures, free sulfhydryl groups, disulfide bonds, and DPPH• and ABTS•+ scavenging activities of WPI. Throughout the spray drying and storage processes, CO-WPI effectively reduced lipid peroxidation in the probiotic membranes, as detected by advanced 1H-nuclear magnetic resonance, compared to WPI alone. Microencapsulation in 4CO-WPI at 110 °C provided the highest cell viability during drying (1.34 × 1011 CFU g−1), coupled with the highest cholesterol assimilation (58.43%). After 12 months at 4 °C, viability remained high (5.57 ×1010 CFU g−1). This study demonstrated CO-WPI's potential in reducing oxidative damage and improving probiotic survival, highlighting its efficacy as a microencapsulant in spray drying.

Topics & Concepts

Spray dryingEncapsulation (networking)Food scienceWhey protein isolateChemistryFreeze-dryingCoconut oilWhey proteinChromatographyComputer networkComputer scienceProbiotics and Fermented FoodsProtein Hydrolysis and Bioactive PeptidesFood Chemistry and Fat Analysis