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Full-Text Articles in Life Sciences
Role Of Food Industry In Promoting Healthy And Sustainable Diets, Kevin B. Miller, James O. Eckberg, Eric A. Decker, Christopher P. F. Marinangeli
Role Of Food Industry In Promoting Healthy And Sustainable Diets, Kevin B. Miller, James O. Eckberg, Eric A. Decker, Christopher P. F. Marinangeli
Food Science Department Faculty Publication Series
Sustainable food systems are often defined by greenhouse gases, land use, effects on biodiversity, and water use. However, this approach does not recognize the reason food is produced-the provision of nutrients. Recently, the relationship between diets and sustainability has been recognized. Most accepted models of 'sustainable diets' focus on four domains: public health, the environment, food affordability, and cultural relevance. Aligned with the FAO's perspective, truly sustainable diets comprise foods that are affordable, nutritious, developed with ingredients produced in an environmentally friendly manner, and consumer preferred. Identifying solutions to address all four domains simultaneously remains a challenge. Furthermore, the recent …
Utilization Of Polysaccharide-Based High Internal Phase Emulsion For Nutraceutical Encapsulation: Enhancement Of Carotenoid Loading Capacity And Stability, Chi Yan, Xiaolin Wu, Yi Wang, Shengfeng Peng, Jun Chen, Liqiang Zou, David Julian Mcclements, Wei Liu
Utilization Of Polysaccharide-Based High Internal Phase Emulsion For Nutraceutical Encapsulation: Enhancement Of Carotenoid Loading Capacity And Stability, Chi Yan, Xiaolin Wu, Yi Wang, Shengfeng Peng, Jun Chen, Liqiang Zou, David Julian Mcclements, Wei Liu
Food Science Department Faculty Publication Series
The main goal of the present work was to access the ability of high internal phase emulsions (HIPEs) to encapsulate fl-carotene. The carotenoid loading capacity of the HIPEs was around 20-fold higher when OSAstarch/chitosan complexes were used than when only OSA-starch was used. This impact could be mainly assigned to the capacity of the former HIPEs to trap carotenoid caystals in a stable form. The OSA-starch/chitosan complexes were shown to absorb on the oil droplets interface and form a 3D network in the aqueous phase, which helped to prevent droplet coalescence induced by fl-carotene crystal. The incorporation of fl-carotene within …