Peer-Reviewed Journal Details
Mandatory Fields
Doherty, SB,Auty, MA,Stanton, C,Ross, RP,Fitzgerald, GF,Brodkorb, A
2012
January
Journal Of Microencapsulation
Application of whey protein micro-bead coatings for enhanced strength and probiotic protection during fruit juice storage and gastric incubation
Validated
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Optional Fields
absorption alginate alginate bead bioavailability biodegradable polymers cell encapsulation SIMULATED GASTROINTESTINAL CONDITIONS LACTOBACILLUS-RHAMNOSUS VIABILITY ASSESSMENT ALGINATE BEADS TREATED MILK SURVIVAL BACTERIA YOGURT MICROENCAPSULATION BIFIDOBACTERIA
29
713
728
Context: Coated whey protein micro-beads may improve probiotic protection and provide delayed cell-release mechanisms.Objective: Lactobacillus rhamnosus GG was encapsulated in whey protein micro-beads by droplet extrusion with coating via electrostatic deposition: primary-polysaccharide and secondary-whey protein.Materials and methods: Storage studies were performed in cranberry and pomegranate juice (pH 2.4; 28 days; 4 and 25 degrees C) followed by simulated ex vivo porcine gastric (pH 1.6) and intestinal (pH 6.6) digestion.Results and discussion: After storage and simulated gastro-intestinal digestion, free cells, cells suspended in protein and cells encapsulated in alginate micro-beads, illustrated complete probiotic mortality, while coated micro-beads enhanced probiotic viability after juice storage (8.6 +/- 0.1 log(10)CFUmL(-1)). Beads also showed significant binding of hydrophobic molecules. Coated micro-beads illustrated high gastric survival (9.5 +/- 0.1 log(10)CFUmL(-1)) with 30 min delayed intestinal release relative to non-coated micro-beads.Conclusions: Micro-bead coatings could be applied in delayed cell-release for targeted intestinal probiotic delivery.
DOI 10.3109/02652048.2011.638994
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