Physical properties and release behaviour of caffeine multiple emulsions stabilised by binary or ternary biopolymer soluble complexes under acid, bile and yogurt storage conditions

Physical properties and release behaviour of caffeine multiple emulsions stabilised by binary or ternary biopolymer soluble complexes under acid, bile and yogurt storage conditions

Whey protein (W) and/or whey peptides (P) and carboxymethylcellulose (C) soluble complexes were designed and used for stabilising water-in-oil-in-water multiple emulsions (ME's) loaded with caffeine in the inner aqueous phase. Interfacial layer composition of the ME's affected the initial...

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Veröffentlicht in:Food hydrocolloids 2016-07, Vol.58, p.42-48
Hauptverfasser: Hernández-Marín, Nancy Y., Lobato-Calleros, Consuelo, Román-Guerrero, Angélica, Alvarez-Ramirez, Jose, Vernon-Carter, E. Jaime
Format: Artikel
Sprache:eng
Schlagworte:
Biopolymer soluble complexes
Caffeine
Caffeine release
Droplets
Emulsions
Molecular weight
Multiple emulsions
Physical properties
Proteins
Rheological properties
Viscoelasticity
Whey
Yogurt
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container_end_page 48
container_issue
container_start_page 42
container_title Food hydrocolloids
container_volume 58
creator Hernández-Marín, Nancy Y.
Lobato-Calleros, Consuelo
Román-Guerrero, Angélica
Alvarez-Ramirez, Jose
Vernon-Carter, E. Jaime
description Whey protein (W) and/or whey peptides (P) and carboxymethylcellulose (C) soluble complexes were designed and used for stabilising water-in-oil-in-water multiple emulsions (ME's) loaded with caffeine in the inner aqueous phase. Interfacial layer composition of the ME's affected the initial droplet size, bulk viscoelastic properties, and caffeine release rates in yogurt and under acid and bile conditions. Oil droplet size of all the ME's did not vary significantly over 21 days of storage. The molecular weight of the protein fraction predominating in the protein:polysaccharide soluble complex was a key factor in determining the ME's properties. When W predominated in the soluble complexes, as opposed to P, initial droplet size was smaller, the viscoelastic properties higher, and the caffeine release slower in yogurt and under acid and bile conditions. [Display omitted] •Multiple emulsions were made with binary and ternary biopolymer soluble complexes.•Droplet size, rheology and caffeine release depended on complexes composition.•Complexes with WPC produced emulsions with higher viscoelastic moduli.•Faster caffeine release occurred with complexes made with whey peptides.
doi_str_mv 10.1016/j.foodhyd.2016.02.008
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subjects Biopolymer soluble complexes
Caffeine
Caffeine release
Droplets
Emulsions
Molecular weight
Multiple emulsions
Physical properties
Proteins
Rheological properties
Viscoelasticity
Whey
Yogurt
title Physical properties and release behaviour of caffeine multiple emulsions stabilised by binary or ternary biopolymer soluble complexes under acid, bile and yogurt storage conditions
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