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Impact of Wall Materials on Physico-Chemical Properties and Stability of Eggplant Peels Anthocyanin Hydrogels

Nina Nicoleta Condurache, Mihaela Turturică, Elena Enachi, Vasilica Barbu, Gabriela Bahrim, Nicoleta Stănciuc, Constantin Croitoru, Gabriela Râpeanu

2021Inventions10 citationsDOIOpen Access PDF

Abstract

In this study, eggplant peel extract was used to obtain hydrogels. Two experimental variants were realized by varying the wall materials. Whey proteins isolate (WPI), citrus pectin (P), and sodium carboxymethylcellulose (CMCNa) were used as wall materials. The microcapsules were obtained by the gelation technique, followed by freeze-drying in order to obtain powders. Both experimental variants were analyzed in terms of phytochemical content, antioxidant activity, storage stability, and in vitro digestibility. Additionally, confocal microscopy was used to observe the encapsulation of the bioactive compounds from the eggplant peel extract into the selected matrices. The encapsulation efficiency of the powders varied from 64.67 ± 0.68% for variant 1 (V1) to 96.44 ± 3.43% for variant 2 (V2). Both powders presented high bioactive compound content with high antioxidant activity. V2 showed the highest stability within 28 days of storage, but also in the simulated digestive system.

Topics & Concepts

PectinChemistryPhytochemicalSelf-healing hydrogelsAnthocyaninAntioxidantWhey protein isolateFood scienceWhey proteinOrganic chemistryBiochemistryBotanical Research and ApplicationsMicroencapsulation and Drying ProcessesProteins in Food Systems
Impact of Wall Materials on Physico-Chemical Properties and Stability of Eggplant Peels Anthocyanin Hydrogels | Litcius