Modified phosphatidylcholine with different alkyl chain length and covalently attached caffeic acid affects the physical and oxidative stability of omega-3 delivery 70% oil-in-water emulsions

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  • Betül Yesiltas, Division of Food Technology, National Food Institute, Technical University of Denmark
  • ,
  • Ann-Dorit Sørensen, National Food Institute, Technical University of Denmark, Denmark
  • Pedro J. Garcia-Moreno, Division of Food Technology, National Food Institute, Technical University of Denmark
  • ,
  • Sampson Anankanbil
  • ,
  • Zheng Guo
  • Charlotte Jacobsen, DTU, Denmark

This study investigated the effects of modified phosphatidylcholine (PC) with different alkyl chain lengths (PC_C14 and PC_C16) and covalently attached caffeic acid on the physical and oxidative stability of 70% fish oil-in-water emulsions. High fat emulsions were produced using different amounts of modified PCs in combination with sodium caseinate and soy-PC. Results showed that the physical stability of the emulsions was improved with increasing concentrations of modified PCs, due to their high surface activity. Emulsion stabilized with PC_C14 led to smaller droplets and higher viscosity, whereas PC_C16 had higher protein surface load, which may result in a thicker interfacial layer. Modified PCs enhanced the oxidative stability of the emulsions due to the attachment of caffeic acid to the glycerol backbone of PC, which brings the antioxidant in the vicinity of oil-water interface. PC_C16 led to less formation of primary and secondary oxidation products compared to PC_14 at their equivalent concentrations.

Original languageEnglish
JournalFood Chemistry
Volume289
IssueAugust
Pages (from-to)490-499
Number of pages10
ISSN0308-8146
DOIs
Publication statusPublished - Aug 2019

    Research areas

  • Caffeic acid, High fat delivery emulsions, Lipid oxidation, Modified phospholipids, Oil-water interface, Phosphatidylcholine, Sodium caseinate, PROTEIN, ANTIOXIDANTS, FATTY-ACIDS, IRON, MAYONNAISE, EMULSIFIERS, PHASE, PH, SODIUM-CASEINATE

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