Production of water soluble quercetin formulations by pressurized ethyl acetate-in-water emulsion technique using natural origin surfactants

Quercetin is a strong antioxidant flavonoid with several bioactive properties such as anti-inflammatory and anticarcinogenic activities, becoming an interesting compound to be incorporated into pharmaceutical, cosmetic or food products. However, these applications are limited by the low bioavailabil...

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Bibliographic Details
Published in:Food hydrocolloids 2015-10, Vol.51, p.295-304
Main Authors: Gonçalves, V.S.S., Rodríguez-Rojo, S., De Paz, E., Mato, C., Martín, Á., Cocero, M.J.
Format: Article
Language:English
Subjects:
Encapsulation
High pressure emulsion technique
Lecithin
Nanosuspension
OSA-starch
Quercetin
β-glucan
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Summary:Quercetin is a strong antioxidant flavonoid with several bioactive properties such as anti-inflammatory and anticarcinogenic activities, becoming an interesting compound to be incorporated into pharmaceutical, cosmetic or food products. However, these applications are limited by the low bioavailability of this flavonoid. Quercetin is poorly soluble in aqueous media, such as gastrointestinal fluids, being also degraded by gut flora. Thus, it is necessary the development of quercetin's formulations capable of improving its water solubility resulting in increased bioavailability and thus higher biological activity of this compound. The aim of the present work was the formulation of quercetin using three distinct natural origin surfactants, namely OSA-starch, Lecithin and β-glucan, by precipitation from a pressurized ethyl acetate-in-water emulsion. Formulations of quercetin with encapsulation efficiencies up to near 76% and a micellar particle size in the range of nanometers were obtained using lecithin. An improved antioxidant activity (3-fold higher per unit mass of quercetin) was also observed in these formulations, demonstrating that lecithin is a good emulsifier for the encapsulation of quercetin. Furthermore, the addition of glycerol as co-solvent increased the colloidal stability of the suspension and the encapsulation efficiency of the flavonoid. [Display omitted] •OSA-starch, soybean lecithin and barley β-glucan were used as emulsifiers.•Best results were achieved for the encapsulation with lecithin.•Stable water suspension of quercetin up to 630 ppm were produced.•Antioxidant activity 3-fold higher per unit mass of quercetin was obtained.•The addition of glycerol as co-solvent increased the colloidal stability.
ISSN:0268-005X
1873-7137
DOI:10.1016/j.foodhyd.2015.05.006