Product shelf life evaluation of an enriched yogurt drink containing an omega-3 nanoemulsion with enhanced bioavailability

Abstract: Long chain omega-3 polyunsaturated fatty acids (LC3PUFA) have been linked to a range of health benefits, throughout the life cycle (1) . Dietary surveys indicate that LC3PUFA are currently under consumed, particularly amongst vegetarians/vegans, adult men, pregnant/breast feeding women, infants, non-fish eaters and certain ethnic groups (2)(3)(4) . New food vehicles such as micro algae oils have been developed to bridge this gap (5) .Nanoemulsions are systems with droplet sizes in range of 20 to 500 nm (6) . T… Show more

“…However, there were significant detrimental changes in the sensory properties of yogurt when the nanoemulsion systems were used as a fortification vehicle, which may indicate the presence of volatile oxidation compounds . A further 16‐day shelf life sensory evaluation of 50% (w/w) algal oil and lecithin nanoemulsion enriched strawberry yogurt indicated that detrimental sensory changes were detected after 2 days of storage, although significant improvements to several sensory attributes were found after 16 days of refrigerated storage, which warrants further investigation …”

“…20 A further 16-day shelf life sensory evaluation of 50% (w/w) algal oil and lecithin nanoemulsion enriched strawberry yogurt indicated that detrimental sensory changes were detected after 2 days of storage, although significant improvements to several sensory attributes were found after 16 days of refrigerated storage, which warrants further investigation. 21 Lecithin, a zwitterionic natural emulsifier has good emulsifying properties as a result of its molecular structure, which has hydrophilic and lipophilic groups and a hydrophilic-lipophilic balance (HLB) of eight, making it well suited to the successful creation of LC 3PUFA algal oil and marine-based oil nanoemulsions. 22 Lecithin has been used successfully to create physically stable LCn3PUFA nanoemulsion systems in various previous studies 16,19,[23][24][25] and has been found to increase the oxidative stability of emulsions at the same time as maintaining physical stability.…”

The composition and oxidative stability of vegetarian omega‐3 algal oil nanoemulsions suitable for functional food enrichment

“…However, there were significant detrimental changes in the sensory properties of yogurt when the nanoemulsion systems were used as a fortification vehicle, which may indicate the presence of volatile oxidation compounds . A further 16‐day shelf life sensory evaluation of 50% (w/w) algal oil and lecithin nanoemulsion enriched strawberry yogurt indicated that detrimental sensory changes were detected after 2 days of storage, although significant improvements to several sensory attributes were found after 16 days of refrigerated storage, which warrants further investigation …”

“…20 A further 16-day shelf life sensory evaluation of 50% (w/w) algal oil and lecithin nanoemulsion enriched strawberry yogurt indicated that detrimental sensory changes were detected after 2 days of storage, although significant improvements to several sensory attributes were found after 16 days of refrigerated storage, which warrants further investigation. 21 Lecithin, a zwitterionic natural emulsifier has good emulsifying properties as a result of its molecular structure, which has hydrophilic and lipophilic groups and a hydrophilic-lipophilic balance (HLB) of eight, making it well suited to the successful creation of LC 3PUFA algal oil and marine-based oil nanoemulsions. 22 Lecithin has been used successfully to create physically stable LCn3PUFA nanoemulsion systems in various previous studies 16,19,[23][24][25] and has been found to increase the oxidative stability of emulsions at the same time as maintaining physical stability.…”

The composition and oxidative stability of vegetarian omega‐3 algal oil nanoemulsions suitable for functional food enrichment

Yogurts supplemented with lipid emulsions rich in omega-3 fatty acids: New insights into the fortification, microencapsulation, quality properties, and health-promoting effects

Technological Strategies to Enhance Yogurt’s Fatty Acid Profile and Its Health-Related Effects