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Advisor(s)
Abstract(s)
Introduction: Macroalgae are a good source of nutrients, such as carbohydrates (dietary fiber and polysaccharides), proteins, lipids and minerals, and they are sustainable, because they do not compete with food crops for arable land and potable water [1,2]. Fucus sp. is composed of valuable bioactive compounds, such as fucoxanthin, vitamins, water-soluble vitamins (vitamin C and of complex B) and fat-soluble vitamins (vitamins A, D, E and K), phenolic compounds, lipids (MUFA and PUFA), and polysaccharides (fucoidans and alginic acid) [1]. This brown alga has been associated with health benefits, with antioxidant, antimicrobial, anti-tumoral and anti-cancer properties [2]. Its application in the production of edible films presents high potential in food packaging, extending the shelf life of food products. Objectives: The integral valorization of Fucus sp. macroalgae, by extracting bioactive compounds, such as phenolic compounds, and extracting polysaccharides (PS). To evaluate the cytotoxicity and antioxidant activity of the bioactive extracts. To produce an edible film based on PS enriched with the bioactive extracts from Fucus sp. To test the physico-chemical properties of the edible film, such as the solubility. The nutritional characterization of the residues from the extractions. Conclusions: Extraction at 300 W during 20 minutes is recommended for highest TPC and AA of the liquid extract. This extract showed no cytotoxicity for cells line HaCat. The edible film based on the PS extracted from Fucus sp. enriched with bioactives extracted also from this alga presents 100 % solubility in water, which simulates hydrophilic foods, and lower solubility in hydroalcoholic solutions, which simulate hydrophobic foods. This edible film has potential to be used in food packaging, whereas presenting high biodegradability.
Description
Keywords
Alga Fucus sp. Bioactivity Edible films