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Articles

Antioxidant properties of apple slices stored in starch-based films

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Pages 1117-1128 | Received 30 Dec 2015, Accepted 15 Jun 2016, Published online: 02 Nov 2016

References

  • Farahnaky, A.; Saberi, B.; Majzoobi, M. Effect of Glycerol on Physical and Mechanical Properties of Wheat Starch Edible Films. Journal of Texture Studies 2013, 44(3), 176–186.
  • Özyurt, G.; Özkütük, A.S.; Şimşek, A.; Yeşilsu, A.F.; Ergüven, M. Quality and Shelf Life of Cold and Frozen Rainbow Trout (Oncorhynchus Mykiss) Fillets: Effects of Fish Protein-Based Biodegradable Coatings. International Journal of Food Properties 2015, 18(9), 1876–1887.
  • Wang, Y.; Liu, A.; Ye, R.; Li, X.; Han, Y.; Liu, Ch. The Production of Gelatin-Calcium Carbonate Composite Films with Different Antioxidants. International of Food Properties 2015, 8(11), 2442–2456.
  • Skurtys, O.; Acevedo, C.; Pedreschi, F.; Enrione, J.; Osorio, F.; Aguilera, J.M. Food Hydrocolloid Edible Films and Coatings. In Food Hydrocolloids: Characteristics, Properties and Structure, Ch. 2; Hollingworth, C.S.; Ed.; Nova Science Publishers: New York, NY, 2010; 41–80;
  • Campos, C.A.; Gerschenson, L.N.; Flores, S.K. Development of Edible Films and Coatings with Antimicrobial Activity. Food and Bioprocess Technology 2011, 4, 849–875.
  • Pająk, P.; Fortuna, T.; Przetaczek-Rożnowska, I. Protein- and Polysaccharide-Based Edible Packagings: Profile and Applications. Food Science Technology Quality 2013a, 2(87), 5–18.
  • Romero-Bastida, C.A.; Bello-Pérez, L.A.; García, M.A.; Martino, M.N.; Solorza-Feria, J.; Zaritzky, N.E. Physicochemical and Microstructural Characterization of Films Prepared by Thermal and Cold Gelatinization from Non-Conventional Sources of Starches. Carbohydrate Polymers 2005, 60, 235–244.
  • Siripatrawan, U.; Harte, B.R. Physical and Antioxidant Activity of an Active Film from Chitosan Incorporated with Green Tea Extract. Food Hydrocolloids 2010, 24, 770–775.
  • Wang, S.; Marcone, M.F.; Barbut, S.; Lim, L-T. Fortification of Dietary Biopolymers-Based Packaging Material with Bioactive Plant Extracts. Food Research International 2012, 49, 80–91.
  • Yashin, A.; Yashin, Y.; Nemzer, B. Determination of Antioxidant Activity in Tea Extracts, and Their Total Antioxidant Content. American Journal of Biomedical Sciences 2011, 3(4), 322–335.
  • Olivas, G.I.; Mattinson, D.S.; Barbosa-Cánovas, G.V. Alginate Coatings for Preservation of Minimally Processed “Gala” Apples. Postharvest Biology and Technology 2007, 45, 89–96.
  • Baldwin, E.A.; Nisperos, M.O.; Chen, X.; Hagenmaier, R.D. Improving Storage Life of Cut Apple and Potato with Edible Coating. Postharvest Biology and Technology 1996, 9, 151–163.
  • Le Thien, C.; Vachon, C.; Mateescu, M.A.; Lacroix, M. Milk Protein Coatings Prevent Oxidative Browning of Apples and Potatoes. Journal of Food Science 2001, 66, 512–516.
  • Lee, J.Y.; Park, H.J.; Lee, C.Y.; Choi, W.Y. Extending Shelf-Life of Minimally Processed Apples with Edible Coatings and Antibrowning Agents. LWT–Food Science and Technology 2003, 36, 323–329.
  • Perez-Gago, M.B.; Serra, M.; Alonso, M.; Mateos, M.; del Río, M.A. Effect of Solid Content and Lipid Content of Whey Protein Isolate-Beeswax Edible Coatings on Color Change of Fresh-Cut Apples. Journal of Food Science 2003, 68, 2186–2191.
  • Perez-Gago, M.B.; Serra, M.; Alonso, M.; Mateos, M.; del Río, M.A. Effect of Whey Protein- and Hydroxypropyl Methylcellulose-Based Edible Composite Coatings on Color Change of Fresh-Cut Apples. Postharvest Biology and Technology 2005, 36, 77–85.
  • Buera, M.P.; Lozano, R.D.; Petriella, C. Definition of Colour in the Nonenzymatic Browning Process. Die Farbe 1985, 32–33, 318–322.
  • Pająk, P.; Socha, R.; Gałkowska, D.; Rożnowski, J.; Fortuna, T. Phenolic Profile and Antioxidant Activity in Selected Seeds and Sprouts. Food Chemistry 2014, 143, 300–306.
  • Meda, A.; Lamien, C.E.; Romito, M.; Millogo, J.; Nacoulma, O.G. Determination of the Total Phenolic, Flavonoid and Proline Contents in Burkina Fasan Honey, as Well as Their Radical Scavenging Activity. Food Chemistry 2005, 91, 571–577.
  • Martinez-Villaluenga, C.; Peñas, E.; Ciska, E.; Piskuła, M.K.; Kozlowska, H.; Vidal-Valverde, C.; Frias, J. Time Dependence of Bioactive Compounds and Antioxidant Capacity During Germination of Different Cultivars of Broccoli and Radish Seeds. Food Chemistry 2010, 120, 710–716.
  • Moure, A.; Franco, D.; Sineiro, J.; Domínguez, H.; Núñez, M.J.; Lema, J.M. Antioxidant Activity of Extracts from Gevuina Avellana and Rosa Rubiginosa Defatted Seeds. Food Research International 2001, 34, 103–109.
  • Katalinic, V.; Mozina, S.S.; Generalic, I.; Skroza, D.; Ljubenkov, I.; Klancnik, A. Phenolic Profile, Antioxidant Capacity, and Antimicrobial Activity of Leaf Extracts From Six Vitis Vinifera L. Varieties. International Journal of Food Properties 2013, 16, 45–60.
  • Benzie, I.F.; Strain, J.J. The Ferric Reducing Ability of Plasma (FRAP) as a Measure of “Antioxidant Power:” The FRAP Assay. Analytical Biochemistry 1996, 239, 70–76.
  • Abdorreza, M.N.; Cheng, L.H.; Karim, A.A. Effects of Plasticizers on Thermal Properties and Heat Sealability of Sago Starch Films. Food Hydrocolloids 2011, 25, 56–60.
  • López, O.V.; Lecot, C.J.; Zaritzky, N.E.; García, M.A. Biodegradable Packages Development from Starch Based Heat Sealable Films. Journal of Food Engineering 2011, 105, 254–263.
  • Pająk, P.; Madej, M.; Krystyjan, M. Edible Coatings as an Alternative to Synthetic Films. Potravinarstvo 2013b, 7, 200–203.
  • Ayranci, E.; Tunc, S. A Method for the Measurement of the Oxygen Permeability and the Development of Edible Films to Reduce the Rate of Oxidative Reactions in Fresh Foods. Food Chemistry 2003, 80, 423–431.
  • Colla, E.; Sobral, P.J.A.; Menegalli, F.C. Effect of Composite Edible Coating from Amaranthus Cruentus Flour and Stearic Acid Refrigerated Strawberry (Fragaria Ananassa) Quality. Latin American Applied Research 2006, 36, 249–254.
  • Krochta, J.M.; De Mulder-Johnston, C. Edible and Biodegradable Polymer Films: Challenges and Opportunites. Journal of Food Technology 1997, 51(2), 61–74.
  • Baysal, T.; Bilek, S.E.; Apaydin, E. The Effect of Corn Zein Edible Film Coating on Intermediate Moisture Apricot (Prunus Armenica L.) Quality. GIDA 2010, 35(4), 245–249.
  • Heras-Ramírez, M.E.; QuinterRamos, A.; Camacho-Dávila, A.A.; Barnard, J.; Talamás-Abbud, R.; Torres-Muňoz, J.V.; Salas-Muňoz, E. Effect of Blanching and Drying Temperature on Polyphenolic Compound Stability and Antioxidant Capacity of Apple Pomace. Food and Bioprocess Technology 2012, 5, 2201–2210.
  • Leja, M.; Mareczek, A.; Ben, J. Antioxidant Properties of Two Apple Cultivars During Long-Term Storage. Food Chemistry 2003, 80, 303–307.
  • Viña, S.Z.; Mugridge, A.; García, M.A.; Ferreyra, R.M.; Martino, M.N.; Chaves, A.R.; Zaritzky, N.E. Effects of Polyvinylchloride Films and Edible Starch Coatings on Quality Aspects of Refrigerated Brussels Sprouts. Food Chemistry 2007, 103, 701–709.
  • Oms-Oliu, G.; Soliva-Fortuny, R.; Martín-Belloso, O. Edible Coating with Antibrowning Agents to Maintain Sensory Quality and Antioxidant Properties of Fresh-Cut Pears. Postharvest Biology and Technology 2008, 50, 87–94.

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