The aim of this study was to verify the effectiveness of an active biodegradable film on the maintenance of extra‐virgin olive oil (EVOO) quality attributes. Level of peroxides, acidity, K232, color, chlorophylls, and carotenoids were determined as parameters to verify the oil quality over storage period. Maltodextrin was used to encapsulate anthocyanins and was the major component in the films, which were used as pouches to pack the oil. The samples were stored at 40°C, exposed to fluorescent light, and monitored during 12 days. The film successfully maintained the quality of EVOO under the limits established by Codex Alimentarius for over 8 days (13.6 meq O2/kg of peroxides at the 8th day), while the oil packed in polypropylene pouches was degraded before the 4th day of storage (326.5 meq O2/kg). Therefore, the results demonstrated the effectiveness of the film on maintaining the quality of EVOO and its promising application as active packaging.
Practical application
Extra‐virgin olive oil (EVOO) is an oxidation‐sensitive product and has been shown to quickly deteriorate when stored under less than ideal conditions. The study brings a new packaging possibility to the commercialization of EVOO with longer shelf‐life. The storage of extra‐virgin olive oil in biodegradable pouches produced with anthocyanins could preserve EVOO from oxidation and consequently extent its shelf‐life. The study proves the efficacy of an active biodegradable packaging on maintaining quality attributes of EVOO. The commercialization of EVOO in active biodegradable pouches could be an eco‐friendly and sustainable way to bring health and practicality to consumers.
Wine grape pomace, a by-product known for its high polyphenolic content, was used as a source of anthocyanins in the acquisition of active biodegradable films, which were produced with anthocyanins encapsulated with different wall materials endowed with film-forming properties. Gum arabic and maltodextrin were used in different proportions during the encapsulation process, and the anthocyanin contents of the powders obtained were quantified by highefficiency liquid chromatography (HPLC), resulting in up to 91.5 % retention. The antioxidant properties, solubility, and color stability of powders were analyzed. Because the microcapsules were added in the highest proportion, it was considered the major component in the formation of films. Microcapsules produced with gum arabic showed higher antioxidant activity as compared to microcapsules produced with maltodextrin. Nevertheless, based on a comparison of the films obtained in this study, the films made with anthocyanins encapsulated with maltodextrin showed better mechanical properties and higher protective effect on oil oxidation, which makes maltodextrin a promising material enabling the formation of films with satisfactory mechanical properties endowed with anthocyanins.
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