Sacha inchi oil encapsulation: Emulsion and alginate beads characterization

[Display omitted] The sacha inchi oil (SIO) has about 82% polyunsaturated fatty acids and micronutrients, as tocopherol and phenolic compounds. This work investigated the combination of encapsulation techniques (emulsification and ionic gelation) in order to produce food ingredients with SIO to the...

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Bibliographic Details
Published in:Food and bioproducts processing 2019-07, Vol.116, p.118-129
Main Authors: Silva, Klycia Fidelis Cerqueira e, da Silva Carvalho, Ana Gabriela, Rabelo, Renata Santos, Hubinger, Míriam Dupas
Format: Article
Language:English
Subjects:
Agglomerates
Alginic acid
Beads
Control stability
Electronegativity
Emulsification
Emulsions
Encapsulation
Fatty acids
Gelation
Hydrogel
Interfacial tension
Ionic gelation
Kinetics
Lipid peroxidation
Lipids
Microemulsions
Micronutrients
Moisture content
Nonionic surfactants
Oil
Oils & fats
Oxidation
Phenolic compounds
Phenols
Pollutants
Polysorbate
Polyunsaturated fatty acid
Polyunsaturated fatty acids
Pseudoplasticity
Sacha inchi oil
Seaweed meal
Sodium
Sodium alginate
Stabilizers
Stabilizers (agents)
Surfactants
Tocopherol
Water activity
Water content
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Summary:[Display omitted] The sacha inchi oil (SIO) has about 82% polyunsaturated fatty acids and micronutrients, as tocopherol and phenolic compounds. This work investigated the combination of encapsulation techniques (emulsification and ionic gelation) in order to produce food ingredients with SIO to the enrichment of foodstuffs, as well as to promote its protection against lipid oxidation. For the SIO encapsulation processes, sodium alginate and nonionic surfactants (Tween 20 and 80) were used as encapsulating/gelation and stabilizers agents, respectively. Emulsions exhibited high electronegativity (≈ −80 mV) and pseudoplastic behavior. Control emulsions showed low kinetics stability with increased oil concentration. With polysorbates addition, an increase in the stability of these emulsions and a significant decline in droplet size, span and electronegativity values were observed. Systems with 1.0 wt% Tween 20 were preferred for particles formation due to the low presence of drops agglomerates. The wet Ca (II) - alginate beads showed characteristic results of ionic gelation technique for moisture content (>85 ± 1%) and water activity (>0.996 ± 0.001), with size ranging from 407 ± 11 to 448 ± 33 μm and high encapsulation efficiency (>99%). The combination of encapsulation methods allowed the improvement of oxidative stability of SIO from 132 ± 9 meq O2. kg−1 to values lower than 44 ± 18 meq O2. kg−1.
ISSN:0960-3085
1744-3571
DOI:10.1016/j.fbp.2019.05.001