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Effect of droplet size on lipid oxidation rates of oil‐in‐water emulsions stabilized by protein
Author(s) -
Lethuaut Laurent,
Métro François,
Genot Claude
Publication year - 2002
Publication title -
journal of the american oil chemists' society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.512
H-Index - 117
eISSN - 1558-9331
pISSN - 0003-021X
DOI - 10.1007/s11746-002-0500-z
Subject(s) - hexanal , emulsion , chemistry , lipid oxidation , sunflower oil , oil droplet , oxygen , adsorption , kinetics , chemical engineering , chromatography , organic chemistry , biochemistry , antioxidant , physics , quantum mechanics , engineering
In emulsions lipid oxidation is mainly influenced by the properties of the interface. The aim of this work was to investigate the effects of droplet size and interfacial area on lipid oxidation in protein‐stabilized emulsions. Emulsions, made of stripped sunflower oil (30% vol/vol) and stabilized by BSA were characterized by surface area values equal to 0.7, 5.1, and 16.3 m 2 ·cm −3 oil. The kinetics of O 2 consumption and conjugated diene (CD) formation, performed on emulsions and nonemulsified controls, showed that emulsification prompted oxidation at an early stage. On condition that oxygen concentration was not limiting, the rates of O 2 consumption and CD formation were higher when the interfacial area was larger. Protein adsorbed at the interface probably restrained this pro‐oxidant effect. Once most of the O 2 in the system was consumed (6–8 h), CD remained steady at a level depending directly on the ratio between oxidizable substrate and total amount of oxygen. At this stage of aging, the amounts of primary oxidation products were similar whatever the droplet size of the emulsion. Hexanal and pentane could be detected in the headspace of emulsions only at this stage. They were subsequently produced at rates not depending on oil droplet size and interfacial area.