Registro:

Referencias:

• Albert, S., Mittal, G.S., Comparative evaluation of edible coatings to reduce fat uptake in a deep-fried cereal product (2002) Food Research International, 35, pp. 445-448
• Alves, V., Costa, N., Hilliou, L., Larotonda, F., Gonçalves, M., Sereno, A., Coelhoso, I., Design of biodegradable composite films for food packaging (2006) Desalination, 199, pp. 331-333
• (1995) Standard Test Method for yellowness index of plastics, , Philadelphia: American Society for Testing and Materials
• 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 (2003) Food Chem., 80, pp. 423-431
• Bailey, R.A., Clark, H.M., Ferris, J.P., Krause, S., Strong, R.L., (2002) Chemistry of the Environment (Second Edition), , Oxford: Elsevier Inc
• Baker, R.A., Baldwin, E.A., Nisperos-Carriedo, M.O., Edible coatings and films for processed foods (1994) Edible films and coatings to improve food quality, pp. 89-103. , J. M. Krochta, E. A. Baldwin, & M. Nisperos-Carriedo (Ed.), Lancaster, PA; Technomic Publishing Company
• Baldwin, E.A., Nispero-Carriedo, M.O., Baker, R.A., Edible coatings for lightly processed fruits and vegetables (1995) Hort. Sci., 30 (1), pp. 35-38
• Bancroft, H., Introducción a la Bioestadística. Ciudad de Buenos Aires (1960), pp. 180-188. , Argentina, EUDEBA: Editorial Universitaria de Buenos Aires; Bautista-Baños, S., Hernandez-Lauzardoa, A.N., Velazquez-del Valle, M.G., Hernandez-Lopez, M., Ait Barka, E., Bosquez-Molina, E., Wilson, C.L., Chitosan as a potential natural compound to control pre and postharvest diseases of horticultural commodities (2006) Crop Prot., 25, pp. 108-118
• Belton, P.S., NMR and the mobility of water in polysaccharide gels (1997) Int. J. Biol. and Macromol., 21, pp. 81-88
• Belton, P.S., Colquhoun, I.J., Hills, B.P., Applications of NMR to food sciences (1993) Annual Report in NMR Spectroscopy, 26, pp. 1-53
• Bissett, O.W., Berry, R.E., Ascorbic acid retention in orange juice as related to container type (1975) J. Food Sci., 40 (1), pp. 178-180
• Bolin, H.R., Steele, R.J., Nonenzymatic browning in dried apples during storage (1987) Journal of Food Science, 52 (6), pp. 1654-1657
• Bravin, B., Peressini, D., Sensidoni, A., Development and application of polysaccharide-lipid edible coating to extend shelf-life of dry bakery products (2006) Journal of Food Engineering, 76, pp. 280-290
• Buonocore, G.G., Del Nobile, M.A., Panizza, A., Bove, S., Battaglia, G., Nicolais, L., Modeling the lysozyme. Release kinetics from antimicrobial films intended for food packaging applications (2002) J. Food Sci., 68 (4), pp. 1365-1370
• Burin, L., Buera, M.P., Beta-galactosidase activity as affected by apparent pH and physical properties of reduced moisture systems (2002) Enzyme and Micr. Techn., 30, pp. 367-373
• Chandrasekaran, R., Puigjaner, L.C., Joyce, K.L., Arnott, S., Cation interactions in gellan: an X-ray study of the potassium salt (1988) Carbohydrate Research, 181, pp. 23-40
• Chen, P.L., Long, Z., Ruan, R., Labuza, T.P., Nuclear resonance studies of water mobility in bread during storage (1997) Lebens. Wiss. und Techn, 30, pp. 178-183. , LWT
• Clegg, K.M., Non-enzymic browning of lemon juice (1964) J. Sci. Food Agric., 15 (12), pp. 878-885
• Cuq, B., Gontard, N., Guilbert, S., Edible films and coatings as active layers (1995) Active Food Packaging, pp. 111-142. , M. Rooney, ed, Glasgow, UK: Blackie Academic & Professional
• Cutter, C.N., Opportunities for bio-based packaging technologies to improve the quality and safety of fresh and further processed muscle foods (2006) Meat Sci., 74, pp. 131-142
• Donhowe, I.G., Fennema, O., Edible films and coatings: Characteristics, formation, definitions, and testing methods (1994) Edible coatings and films to improve food quality, pp. 1-24. , J. M. Krochta, E. A. Baldwin, & M. O. Nisperos-Carriedo (Eds.), Lancaster, Pennsylvania: Technomic Publishing Co., Inc
• Doublier, J.L., Launay, B., Cuvelier, G., Viscoelastic properties of food gels (1992) Viscoelastic Properties of Foods, , M. A. Rao, & J. F. Steffe (Eds.), Oxford, Elsevier Ltd., Ch. 14, 1992
• Dutta, P.K., Tripathi, S., Mehrotra, G.K., Dutta, J., Review (2009) Perspectives for chitosan based antimicrobial films in food applications
• Famá, L., Flores, S.K., Gerschenson, L.N., Goyanes, S., Physical characterization of cassava starch biofilms with special reference to dynamic mechanical properties at low temperatures (2006) Carbohydrate Polymers, 66 (1), pp. 8-15
• Fama, L., Rojas, A.M., Goyanes, S., Gerschenson, L.N., (2005) Mechanical properties of tapioca-starch edible films containing sorbates
• Fama, L., Rojas, A.M., Goyanes, S., Gerschenson, N., Mechanical properties of tapioca-starch edible films containing sorbates (2005) Lebensittel Wissenschaft und Technologie, 38, pp. 631-639
• Favetto, G., Resnik, S., Chirife, J., Ferro Fontán, C., Statistical evaluation of water activity measurements obtained with the Vaisala Humicap humidity meter (1983) Journal of Food Science, 48, pp. 534-538
• Ferry, J.D., Dependence of viscoelastic behaviour on temperature and pressure (1980) Viscoelastic properties of polymers, pp. 260-264. , NewYork: Wiley
• Flores, S., Fama, L., Rojas, A.M., Goyanes, S., Gerschenson, L.N., Physical properties of tapioca-starch edible films: Influence of filmmaking and potassium sorbate (2007) Food Research International, 40, pp. 257-265
• Franssen, L.R., Rumsey, T.R., Krochta, J.M., Modeling of natamycin and potassium sorbate diffusion in whey protein isolate films for application to cheddar cheese (2002), Poster 28-5. Anaheim, CA: Institute of Food Technologists Annual Meeting; Garcia, M.A., Ferrero, C., Bértola, N., Martino, M., Zaritzky, N., Edible coatings from cellulose derivatives to reduce oil uptake in fried products (2002) Innovative Food Science & Emerging Technologies, 3 (4), pp. 391-397
• Gennadios, A., McHugh, T.H., Weller, C.L., Krochta, J.M., Edible coatings and films based on proteins (1994) Edible coatings and films to improve food quality, , Chapter 9; ed. by JM Krochta, EA Baldwin and M. Nisperos-Carriedo, CRC Press, Taylor & Francis, USA
• Gennadios, A., Hanna, M.A., Kurth, L.B., Application of edible coatings on meats, poultry and seafoods: a review. Lebensm (1997) Wiss. u Technol., 30 (4), pp. 337-350
• Geraldine, R.M., Ferreira Soares, N., de, F., Alvarenga Botrel, D., de Almeida Goncalves, L., Characterization and effect of edible coatings on minimally processed garlic quality (2008) Carbohydrate Polymers, 72, pp. 403-409
• Greenspan, L., Humidity fixed points of binary saturated aqueous solutions (1977) Journal of Research of the National Bureau of Standards Section A-Physics and Chemistry, 81A (1), pp. 89-96
• Güçbilmez, C.M., Yemenicioğlu, A., Arslanoğlu, A., Antimicrobial and antioxidant activity of edible zein films incorporated with lysozyme, albumin proteins and disodium EDTA (2007) Food Research International, 40, pp. 80-91
• Guilbert, S., Gontard, N., Edible and biodegradable food packaging (1995) Foods and Packaging Materials-Chemical Interactions, pp. 159-168. , P. Ackermann, M. Jagerstad, & T. Ohlsson (Eds.), Cambridge, UK, The Royal Society of Chemistry
• Gunning, A.P., Kirby, A.R., Ridout, M.J., Brownsey, G.J., Morris, V.J., Investigation of gellan networks and gels by atomic force microscopy (1996) Macromolecules, 29, pp. 6791-6796
• Hamcerencu, M., Desbrieres, J., Khoukh, A., Popa, A., Riess, G., Synthesis and characterization of new unsaturated esters of Gellan Gum (2008) Carbohydrate Polymers, 71, pp. 92-100
• Han, J.H., Gennadios, A., Edible films and coatings: a review (2005) Innovations in Food Packaging, 2005, p. 242. , Jung H. Han, (Ed.), London, Elsevier Ltd
• Han, J.H., (2005) Innovations in Food Packaging, , Elsevier Ltd. Edited by: Jung H. Han
• Han, J.H., Protein-based edible films and coatings carrying antimicrobial agents (2002) Protein-based Films and Coatings, pp. 485-499. , A. Gennadios, ed., CRC Press, Boca Raton, FL
• Hatakeyama, H., Hatakeyama, T., Interaction between water and hydrophilic polymers (1998) Thermochimica Acta, 308, pp. 3-22
• Jampen, S., Britt, I.J., Tung, M.A., Gellan polymer solution properties: dilute and concentrated regimes (2000) Food Research International, 33, pp. 579-586
• Jo, C., Kang, H., Lee, N.Y., Kwon, J.H., Byun, M.W., Pectin-and gelatin-based film: effect of gamma irradiation on the mechanical properties and biodegradation (2005) Radiation Physics and Chemistry, 72 (6), pp. 745-750
• Kang, H.J., Jo, C., Lee, N.Y., Kwon, J.H., Byun, M.W., A combination of gamma irradiation and CaCl2 immersion for a pectin-based biodegradable film (2005) Carbohydrate Polymers, 60 (4), pp. 547-551
• Kasapis, S., Recent advances and future challenges in the explanation and exploitation of the network glass transition of high sugar/biopolymer mixtures (2008) Crit. Rev. Food Sci. Nutr., 48, pp. 185-203
• Kester, J.J., Fennema, O.R., Edible films and coatings: a review (1986) Food Technol., 48 (12), pp. 47-59
• Kitts, D.D., An evaluation of the multiple effects of the antioxidant vitamins (1997) Trends in Food Science and Technology, 8, pp. 198-203
• Kou, Y., Dickinson, L.C., Chinachoti, P., Mobility characterization of waxy corn starch using wide-line 1H nuclear magnetic resonance (2000) Journal of Agriculture and Food Chemistry, 48 (11), pp. 5489-5495
• Kristo, E., Biliaderis, C.G., Water sorption and thermo-mechanical properties of water/sorbitol-plasticized composite biopolymer films: Caseinate-pullulan bilayers and blends (2006) Food Hydrocolloids, 20 (7), pp. 1057-1071
• Krochta, J.M., De Mulder-Johnston, C., Edible and biodegradable polymer films: challenges and opportunities (1997) Food Technol., 51, pp. 61-77
• Kurata, T., Sakurai, Y., Degradation of L-ascorbic acid and mechanism of nonenzymic browning reaction (1967) Part II. Agric. Biol. Chem., 31, pp. 170-176
• Labuza, T., Baisier, W.M., The kinetics of nonenzymatic browning (1992) Physical chemistry of foods, pp. 595-649. , H. Schwartzberg, & R. Hartel (Eds.), New York: Marcel Dekker
• Lapasin, R., Pricl, S., (1995) Rheology of industrial polysaccharides. Theory and applications, , Published by Blackie Academic and Professional, Chapman & Hall, Glasgow, UK
• Lee, J.Y., Park, H.J., Lee, C.Y., Choi, W.Y., (2003) Lebensm.-Wiss. U.-Technol, 36, pp. 323-329. , Extending shelf-life of minimallyprocessed apples with edible coatings and antibrowning agents
• Leon, P.G., Chillo, S., Conte, A., Gerschenson, L.N., Del Nobile, M.A., Rojas, A.M., Rheological characterization of deacylated/acylated gellan films carrying L-(+)-ascorbic acid (2009) Food Hydrocolloids, , in press, available online
• Leon, P.G., Lamanna, M.E., Gerschenson, L.N., Rojas, A.M., Influence of composition of edible films based on gellan polymers on L-(+)-ascorbic acid stability (2008) Food Research International, 41, pp. 667-675
• León, P.G., Rojas, A.M., Gellan gum films as carriers of L-(+)-ascorbic acid (2007) Food Research International, 40, pp. 565-575
• Levine, M., Morita, K., (1985) Ascorbic acid in endocrine systems, 42, p. 3. , Vitamins and hormones. New York: Academic Press
• Lievonen, S.M., Roos, Y.H., Water sorption of food models for studies of glass transition and reaction kinetics (2002) Journal of Food Science, 67 (5), pp. 1758-1766
• Mali, S., Eiras Grossmann, M.V., García, M.A., Martino, M.N., Zaritzky, N.E., Barrier, mechanical and optical properties of plasticized yam starch films (2004) Carbohydrate Polymers, 56 (2), pp. 129-135
• Matuska, M., Lenart, A., Lazarides, H.N., On the use of edible coatings to monitor osmotic dehydration kinetics for minimal solids uptake (2006) Journal of Food Engineering, 72, pp. 85-91
• Mei, Y., Zhao, Y., Yang, J., Furr, H.C., Using edible coating to enhance nutritional and sensory qualities of baby carrots (2002) J. Food Sci., 67 (5), pp. 1964-1968
• Mikova, K., (2001) The regulation of antioxidants in food, , J. Pokorny, N. Yanishlieva, & M. Gordon (Eds.), Antioxidants in foods. Practical applications. Cambridge, England: CRC Press. Woodhead Publishing Limited, chapter 11
• Morris, V.J., Mackie, A.R., Wilde, P.J., Kirby, A.R., Clare, E., Mills, N., Atomic force microscopy as a tool for interpreting the rheology of food biopolymers at the molecular level (2001) Lebensmittel Wissenschaft und Technologie (LWT), 34, pp. 3-10
• Morrisey, P.A., O'Brien, N.M., Dietary antioxidants in health and disease (1998) International Dairy Journal, 8, pp. 463-472
• Morrison, R.T., Boyd, R.N., Química Orgánica (190, 211, 233) (1990), S. A., Wilmington, Delaware, USA: Addison-Wesley Iberoamericana; Petersen, K., Per Vaeggenose, N., Bretelsen, G., Lawther, M., Olsen, M.B., Nilson, N.H., Martensen, G., Potential of biobased materials for food packaging (1999) Trends in Food Science Technology, 10, pp. 52-68
• Ragaert, P., Devlieghere, F., Debevere, J., Role of microbiological and physiological spoilage mechanisms during storage of minimally processed vegetables (2007) Postharvest Biology and Technology, 44 (3), pp. 185-194
• Rhim, J.W., Physical and mechanical properties of water resistant sodium alginate films (2004) Lebensmittel-Wissenschaft und-Technologie, 37 (3), pp. 323-330
• Rojas, A.M., Gerschenson, L.N., Influence of system composition on ascorbic acid destruction at processing temperatures (1997) J. Sci. Food Agric., 74, pp. 369-378
• Rojas, A.M., Gerschenson, L.N., Ascorbic acid destruction in aqueous model systems: an additional discussion (2001) J. Sci. Food Agric., 81 (15), pp. 1433-1439
• Rojas, A.M., Gerschenson, L.N., Determinacion de vitamina C en productos frutihortícolas (1991) Anales de la Asociacion Química Argentina, 79, pp. 97-106
• Rojas-Graü, M.A., Avena-Bustillos, R.J., Friedman, M., Henika, P.R., Martin-Belloso, O., McHugh, T.H., Mechanical, Barrier, and Antimicrobial Properties of Apple Puree Edible Films Containing Plant Essential Oils (2006) J. Agric. Food Chem., 54, pp. 9262-9267
• Sanjurjo, K., Flores, S.K., Gerschenson, L.N., Jagus, R., Study of the performance of nisin supported in edible films (2006) Food Research International, 39 (6), pp. 749-754
• Saucedo-Pompa, S., Rojas-Molina, R., Aguilera-Carbó, A.F., Saenz-Galindo, A., de La Garza, H., Jasso-Cantú, D., Aguilar, C.N., Edible film based on candelilla wax to improve the shelf life and quality of avocado (2009) Food Research International, 42, pp. 511-515
• Scott-Thomas, C., Prepare for higher calorie count for fibre, say scientists. Food navigator.com, http://www.foodnavigator.com/Legislation/Prepare-for-higher-caloriecount-for-fibre-say-scientists Seydim, A. C. & Sarikus, G. (2006). Antimicrobial activity of whey protein based edible films incorporated with oregano, rosemary and garlic essential oils (2008) Food Research International, 39, pp. 639-644
• Shi, H., Introducing natural antioxidants (2001) Antioxidants in foods. Practical applications, , J. Pokorny, N. Yanishlieva, & M. Gordon (Eds.), Cambridge, England: CRC Press. Woodhead Publishing Limited, chapter 8
• Shrestha, A.K., Arcot, J., Paterson, J.L., Edible coating materials-their properties and use in the fortification of rice with folic acid (2003) Food Research International, 36, pp. 921-928
• Simon, M., Wagner, J.R., Silveira, V.G., Hendel, C.E., Calcium chloride as nonenzymatic browning retardant for dehydrated white potatoes (1955) Food Technology, 6 (12), pp. 271-275
• Sivarooban, T., Hettiarachchy, N.S., Johnson, M.G., Physical and antimicrobial properties of grape seed extract, nisin, and EDTA incorporated soy protein edible films (2008) Food Research International, 41, pp. 781-785
• Sokal, R.R., Rohlf, F.J., (1969) Biometry. The principles and practice of statistics in biological research, pp. 253-380. , San Francisco, USA: W. H. Freeman and Co. Publisher
• Sothornvit, R., Rodsamran, P., Effect of a mango film on quality of whole and minimally processed mangoes (2008) Postharvest Biology and Technology, 47, pp. 407-415
• Stick, R.V., Carbohydrates (2001) The Sweet Molecules of Life, , London, Elsevier Ltd
• Torregrosa, F., Esteve, M.J., Frígola, A., Cortés, C., Ascorbic acid stability during refrigerated storage of orange-carrot juice treated by high pulsed electric field and comparison with pasteurized juice (2006) J. Food Eng., 73 (4), pp. 339-345
• Trezza, T.A., Krochta, J.M., Color stability of edible coatings during prolonged storage (2000) Journal of Food Science, 65 (1), pp. 1166-1169
• Vásconez, M.B., Flores, S.K., Campos, C.A., Alvarado, J., Gerschenson, L.N., Antimicrobial activity and physical properties of chitosan-tapioca starch based edible films and coatings Food Research International (2009) in Press, , corrected proof, available online
• Villota, R., Karel, M., Prediction of ascorbic acid retention during drying. I. Moisture and temperature distribution in a model system (1980) Journal of Food Processing and Preservation, 4, pp. 111-134
• Vittadini, E., Dickinson, L.C., Chinachoti, P., 1H and 2H NMR mobility in cellulose (2001) Carbohydrate Polymers, 46 (1), pp. 49-57
• Weisburger, J.H., Mechanisms of action of antioxidants as exemplified in vegetables, tomatoes and tea (1999) Food and Chemical Toxicology, 37, pp. 943-948
• Williams, S.K., Oblinger, J.L., West, R.L., Evaluation of a calcium alginate film for use on beef cuts (1978) J Food Sci, 43, pp. 292-296
• Williams, R., Mittal, G.S., Low-fat fried foods with edible coatings: Modeling and simulation (1999) Journal of Food Science, 64 (2), pp. 317-322
• Wu, J.Y., Bryant, R.G., Eads, T.M., Detection of solid like components in starch using cross-relaxation and Fourier transform wide-line 1H NMR methods (1992) Journal of Agriculture and Food Chemistry, 40, pp. 449-455
• Yang, L., Paulson, A.T., Mechanical properties of water vapour barrier properties of edible gellan films (2000) Food Research International, 33, pp. 563-570
• Yang, L., Paulson, A.T., Effect of lipids on mechanical and moisture barrier properties of edible gellan film (2000) Food Research International, 33, pp. 571-578

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------