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Journal article

Combination of sodium caseinate and succinylated alginate improved stability of high fat fish oil-in-water emulsions

In Food Chemistry 2018, Volume 255, pp. 290-299

By Yesiltas, Betül1,2,3; Sørensen, Ann-Dorit Moltke1,2; García Moreno, Pedro Jesús1,2; Anankanbil, Sampson4; Guo, Zheng4; Jacobsen, Charlotte1,2,3

From

National Food Institute, Technical University of Denmark1

Research Group for Bioactives – Analysis and Application, National Food Institute, Technical University of Denmark2

National Food Institute3

Aarhus University4

Sodium caseinate (CAS) and commercial sodium alginate (CA), long chain modified alginate (LCMA) or short chain modified alginate (SCMA) were used in combination for emulsifying and stabilizing high fat (50–70%) fish oil-in-water emulsions. Physical (creaming, droplet size, viscosity and protein determination) and oxidative (primary and secondary oxidation products) stabilities of the emulsions were studied during 12 days of storage.

Creaming stability was higher for emulsions produced with alginates and CAS compared to emulsions prepared with only CAS. Combined use of CAS + LCMA performed better in terms of physical stability compared to emulsions produced with only CAS. However, the oxidative stability of this emulsion was inferior probably due to the presence of an unsaturated carbon chain in LCMA structure.

CAS + SCMA emulsions not only showed better physical stability such as smaller droplet size, lower creaming and higher viscosity, but also had an improved oxidative stability than emulsions produced with only CAS.

Language: English
Year: 2018
Pages: 290-299
ISSN: 18737072 and 03088146
Types: Journal article
DOI: 10.1016/j.foodchem.2018.02.074
ORCIDs: Jacobsen, Charlotte , Yesiltas, Betül , Sørensen, Ann-Dorit Moltke and García Moreno, Pedro Jesús
Keywords

50–70% o/w emulsion Cod liver oil Emulsifier Lipid oxidation Modified alginate Omega-3 Oxidative stability Physical stability

Other keywords

Alginates Animals Caseins Emulsions Fish Oils Glucuronic Acid Hexuronic Acids Oxidation-Reduction Viscosity Water

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