Stability and in vitro digestibility of emulsions containing lecithin and whey proteins

Mantovani, Raphaela Araújo; Cavallieri, Ângelo Luiz Fazani; Netto, Flávia Maria; Cunha, Rosiane L.

doi:10.1039/c3fo60156k

Cited by 74 publications

(45 citation statements)

References 32 publications

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“…In special for the cream phase, a significant formation of aggregates at low pressure (25 MPa) was observed whilst this aggregation seems to be reduced with increasing pressure homogenization. However, the electrophoretic profiles of the whole emulsions (before centrifugation) showed less marked bands related to the formation of protein aggregates of high molecular weight at lower pressure in agreement with Mantovani et al (2013). These divergent results suggest that the centrifugation process favoured the protein aggregation at lower pressure.…”

Section: Protein Adsorption On the Interfacesupporting

confidence: 61%

Gelation of oil-in-water emulsions stabilized by whey protein

Mantovani

Cavallieri

Cunha

2016

Journal of Food Engineering

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Section: Protein Adsorption On the Interfacesupporting

confidence: 61%

Gelation of oil-in-water emulsions stabilized by whey protein

Mantovani

Cavallieri

Cunha

2016

Journal of Food Engineering

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“…In such models, samples are exposed to human gastric and intestinal conditions which are artificially created. Various authors have studied the release behavior of fish oil-in-water emulsions using single step (pH-stat method) and multi-step in vitro digestion models (16,17,18,19). However, release behavior of flaxseed oil from encapsulated and spray dried microcapsules under simulated gastro-intestinal conditions have rarely been described previously.…”

Section: Effect Of Microencapsulation and Spray Drying On Oxidative Smentioning

confidence: 97%

Effect of microencapsulation and spray drying on oxidative stability of flaxseed oil and its release behavior under simulated gastrointestinal conditions

et al. 2016

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Flaxseed oil is one of the richest sources of omega-3 fatty acid (α-linolenic acid, ALA). It contains high amount of polyunsaturated fatty acids, making it extremely susceptible to oxidation. In the present study, flaxseed oil was stabilized using microencapsulation followed by spray drying and studied for its oxidative stability in terms of peroxide value (PV), thiobarbituric acid and p-anisidine value at room (35±1°C) and low temperature (4-7°C) storage for six months. Results revealed that developed flaxseed oil powder was stable throughout the storage period and PV remained below to the maximum permissible limit (≤5 meq per kg oil) prescribed by Codex Alimentarius Commission. Fatty acids profile measured by gas-liquid chromatography indicated 14.28 -15.13% decrease in ALA content in flaxseed oil as a result of microencapsulation and storage at room temperature. In vitro digestion behavior of microcapsules showed 4.39±0.53 -Downloaded by [Stockholm University Library] at

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“…Nevertheless, certain types of lecithin do appear to be effective at forming and stabilizing emulsions depending on the blend of phospholipids they contain [30]. Lecithin may also be used in combination with other natural emulsifiers to form emulsions, e.g., proteins [32]. Research on the emulsification properties of lecithin is likely to continue as fractions with more well-defined and novel phospholipid blends are introduced commercially.…”

Section: Phospholipidsmentioning

confidence: 98%