AI Article Synopsis
- The study examined the stability of fish oil-in-water-in-olive oil double emulsions using whey protein hydrolysate as an emulsifier.
- The physical stability of the emulsions was better maintained at lower temperatures (8 °C) compared to higher temperatures (25 °C), with significant destabilization occurring at the higher temperature.
- The double emulsions exhibited good oxidative stability regardless of temperature and the presence of prooxidants, indicated by low peroxide and anisidine values throughout the storage period.
Article Abstract
This work studied the physical and oxidative stabilities of fish oil-in-water-in-olive oil double emulsions (O/W/O), where whey protein hydrolysate was used as a hydrophilic emulsifier. A 20 wt.% fish oil-in-water emulsion, stabilized with whey protein hydrolysate (oil: protein ratio of 5:2 /) and with a zeta potential of ~-40 mV, only slightly increased its D value during storage at 8 °C for seven days (from 0.725 to 0.897 µm), although it showed severe physical destabilization when stored at 25 °C for seven days (D value increased from 0.706 to 9.035 µm). The oxidative stability of the 20 wt.% fish oil-in-water emulsion decreased when the storage temperature increased (25 vs. 8 °C) as indicated by peroxide and -anisidine values, both in the presence or not of prooxidants (Fe). Confocal microscopy images confirmed the formation of 20 wt.% fish oil-in-water-in-olive oil (ratio 25:75 /) using Polyglycerol polyricinoleate (PGPR, 4 wt.%). Double emulsions were fairly physically stable for 7 days (both at 25 and 8 °C) (Turbiscan stability index, TSI < 4). Moreover, double emulsions had low peroxide (<7 meq O/kg oil) and -anisidine (<7) values that did not increase during storage independently of the storage temperature (8 or 25 °C) and the presence or not of prooxidants (Fe), which denotes oxidative stability.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10044726 | PMC |
| http://dx.doi.org/10.3390/antiox12030762 | DOI Listing |
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