Physicals and physicochemical changes during storage on plantain antioxidant solutions vacuum impregnated
Abstract
To insert the fresh cut fruit to markets is necessary to ensure that visual quality is not altered by the process of peeled and sliced; and also must ensure physical chemistry product quality. It was evaluated the physicochemical and physic properties of the pulp of green plantain (PPV), after vacuum impregnation (IV) with two solutions containing antioxidants (1: Sulfites 500 mg/kg PPV fresh, 2: mixture of 90 mg and 100 mg ascorbic acid citric acid / kg PPV fresh) plus preservatives, NaCl and EDTA, with and without vacuum packed (CV and SV), and stored at 4°C for 0, 3, 6, 9, 12 and 15 days; in addition, it was compared with PPV without impregnating the same storage conditions. There was a tendency to decrease the pH and content of sulphites, and increase the °Brix, acidity and enzyme activity, while the aw and humidity showed no significant changes. Treatments controlled enzymatic browning for 15 days in the PPV were all those conditions packaged CV, besides to treatment with sulfites SV. The samples impregnated with the sulfite solution and packed CV and SV, had the higher strength, making these the most appropriate treatments for minimally processed PPV use as feedstock in the snack industry.Downloads
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ALMANZA-BENITEZ, S., OSORIO-DÍAZ, P., MENDEZ-MONTEALVO, G., ISLAS-HERNÁNDEZ, J.J. and BELLO-PEREZ, L.A. Addition of acid-treated
unripe plantain flour modified the starch digestibility, indigestible carbohydrate content andantioxidant capacity of semolina spaghetti. LWT
- Food Science and Technology 62, 2015, p.
-1133.
LAZARO, A. Factores condicionantes de la toma de decisiones en procesos de organización empresarial:caso del entorno platanero en Nicaragua[Tesis Maestría Socioeconomía ambiental].TurriAlba (Costa Rica): Centro Agronómico Tropical
de Investigación y Enseñanza, 2008, 129 p.International Journal of Food Science and Technology2014, 49, 1825–1833. Effect of green plantain flour addition to gluten-free bread on functionalbread properties and resistant starch content
SARAWONG, C., RODRIGUEZ, Z., BERGHOFER,E. and SCHOENLECHNER, R. Effect of greenplantain flour addition to gluten-free bread onfunctional bread properties and resistant starchcontent. International Journal of Food Scienceand Technology, 49(8), 2014, p. 1825–1833.
AGAMA, E., ISLAS, J., PACHECO, G., OSORIO, P.and BELLO, L. Starch digestibility and glycemicindex of cookies partially substituted with unripebanana flour. LWT - Food Science and Technology,46(1), 2012, p. 177–182.
LOZANO, J. Fruit products. Deterioration by browning.
In: Fruit manufacturing. New York (Unites
States of America): Springer, 2006, p. 163-182.
RADHAKRISHNAN, S., SHIMMON, R., CONN, C.and BAKER, A. Azachalcones: A new class ofpotent polyphenol oxidase inhibitors. Bioorganic & Medicinal Chemistry Letters, 25(8), 2015, p.1753–1756.
PLAZAS, M., LÓPEZ-GRESA, M., VILANOVA,S., TORRES, C., HURTADO, M., GRAMAZIO, P.,ANDÚJAR, I., HERRÁIZ, F., BELLÉS, J. and PROHENS,J. Diversity and Relationships in Key Traits for Functional and Apparent Quality in a Collection of Eggplant: Fruit Phenolics Content, Antioxidant Activity, Polyphenol Oxidase Activity, and Browning.
Journal of Agricultural and Food Chemistry,61(37), 2013, p. 8871–8879.
FALGUERA, V., LORDAN, J., GATIUS, F., PASCUAL, M., VILLAR, J., IBARZ, A. and RUFAT, J. Influence of nitrogen fertilization on polyphenol
oxidase activity in peach fruits. Scientia Horticulturae, 142(1), 2012, p. 155–157.
LANTE, A., TINELLO, F. and NICOLETTO, M. UV-A light treatment for controlling enzymatic browning of fresh-cut fruits. Innovative Food Science and Emerging Technologies, 34(1), 2016, p. 141-147.
PEÑA, P., CORTÉS, M. y GIL, J.H. Uchuva mínimamente
procesada impregnada al vacío con calcio y vitaminas B9, D y E. Biotecnología en el sector Agropecuario y Agroindustrial, 13(1),
, p. 110-119.
BETORET, E., BETORET, N., ROCCULI, P. and DALLA-ROSA, M. Strategies to improve food functionality: Structure-property relationships on high pressures homogenization, vacuum impregnation and drying technologies. Trends in Food Science & Technology, 46, 2015, p. 1-12.
PUENTE, l., BETORET, N. and CORTÉS, M. Evolution of probiotic content and color of apples impregnated with lactic acid bacteria. Vitae, 3(16), 2009, p. 297-303.
CORTÉS, M., DÁVILA, R. and GIL, J. Impregnation Solution Influence on the Pulp Color of Plantains (Musa paradisiaca). Revista Facultad Nacional de Agronomía, 66(1), 2013, p. 6949-6958.
CASTAGNINI, J.M., BETORET, N., BETORET, E. and FITO, P. Vacuum impregnation and air drying temperature effect on individual anthocyanins and antiradical capacity of blueberry juice included
into an apple matrix. LWT - Food Science and Technology, 64(2), 2015, p. 1289-1296.
PEÑA, R.F., CORTÉS, M. and MONTOYA, O.I. Evaluation of the physicochemical, physical and sensory properties of fresh cape gooseberry and vacuum impregnated with physiologically active
components. Vitae, 20(1), 2013, p. 13-22.
ERIHEMU, HIRONAKA, K., ODA, Y. and KOAZE, H. Iron enrichment of whole potato tuber by vacuum impregnation. LWT - Food Science and Technology, 59(1), 2014, p. 504-509.
MORENO, J., SIMPSON, R., PIZARRO, N., PARADA, K., PINILLA, N., REYES, J.E. and ALMONACID, S. Effect of ohmic heating and vacuum
impregnation on the quality and microbial stability of osmotically dehydrated strawberries (cv.Camarosa). Journal of Food Engineering, 110(2),2012, p. 310-316.
INSTITUTO COLOMBIANO DE NORMAS TÉCNICAS Y CERTIFICACIÓN (ICONTEC). Plátanos. Clasificación. Norma Técnica Colombiana 1190.
Bogotá (Colombia): 1976, 6 p.
CORTÉS, M. Desarrollo de productos de manzana deshidratados enriquecidos con vitamina E [Ph.D. Tesis]. Valencia (España): Universidad Politécnica de Valencia, Departamento Tecnología de Alimentos, 2004, 254 p.
INSTITUTO COLOMBIANO DE NORMAS TÉCNICAS Y CERTIFICACIÓN (ICONTEC). Productos de frutas y verduras. Determinación de la acidez
titulable. Norma Técnica Colombiana 4623. Bogotá (Colombia): 1999, 6 p.
ASSOCIATION OF OFICIAL ANALYTICAL CHEMISTS (AOAC). Official Methods of Analysis 981.12. 15th ed. Arlington (United States of
America): Kenneth Helrich, 1990.
ASSOCIATION OF OFICIAL ANALYTICAL CHEMISTS (AOAC). Official Methods of Analysis 7.003 and 930.15 (adapted C 934.06). Arlington
(United States of America): 1996.
INSTITUTO COLOMBIANO DE NORMAS TÉCNICAS Y CERTIFICACIÓN (ICONTEC). Jugos de frutas y hortalizas. Determinación del contenido de
sólidos solubles. Método refractométrico. Norma Técnica Colombiana 4624. Bogotá (Colombia):1999, 9 p.
ASSOCIATION OF OFICIAL ANALYTICAL CHEMISTS (AOAC). Official Methods of Analysis. 978.18M. Arlington (United States of America):
ASSOCIATION OF OFICIAL ANALYTICAL CHEMISTS (AOAC). Official Methods of Analysis. 945.06. 15th Edition. Arlington (United States of
America): Kenneth Helrich, 1990.
NG, A. and WONG, C. Partial purification and characterization of polyphenol oxidase from round brinjal (S. melongena var. depressum). International Food Research Journal, 22(2), 2015, p. 826-831.
MUSAGALA, P., SSEKAALO, H., MBABAZI, J. and NTALE, M. A spectrophotometric method for quantification of sulphite ions in environmental samples. Journal of Toxicology and Environmental Health Sciences 5(4), 2013, p. 66-72.
HERNÁNDEZ, D., CORTÉS, M., CASTELLANOS, F. y TOBÓN, C.S. Influencia de emulsiones de imptregnación antipardeantes sobre el color de la papa durante el almacenamiento. Revista Facultad Nacional de Agronomía, 67(Suplemento 2),2014, p. 143-146.
RUIZ, M. Aplicación de la Ingeniería de Matrices en el desarrollo de hongos comestibles (Pleurotus ostreatus) fortificados con Calcio, Zinc y
Vitaminas E y C [M.Sc. Tesis]. Medellín (Colombia): Universidad Nacional de Colombia, Facultadde Ciencias Agrarias, 2004, 109 p.
IKOLANTONAKI, M. and WATERHOUSE, A. A Method to Quantify Quinone Reaction Rates with Wine Relevant Nucleophiles: A Key to the Understanding of Oxidative Loss of Varietal Thiols. Journal of Agricultural and Food Chemistry, 60(34), 2012, p. 8484−8491.
KUIJPERS, T., GRUPPEN, H., SFORZA, S., VAN BERKEl, W.J. and VINCKEN, J.P. The antibrowningagent sulfite inactivates Agaricus bisporus tyrosinase through covalent modification of the copper-B site. FEBS Journal, 280(1), 2013, p. 6184–6195.
KUIJPERS, T.F., NARVAEZ-CUENCA, C.E., VINCKEN, J.P., VERLOOP, A.J., VAN BERKEL, W.J. and GRUPPEN, H. Inhibition of Enzymatic Browning of Chlorogenic Acid by Sulfur Containing Compounds. Journal of Agricultural and Food Chemistry, 60(13), 2012, p. 3507−3514.
AKA, J.P., COURTOIS, F., LOUARME, L., NICOLAS, J. and BILLAUD, C. Modelling the interactions between free phenols, L-ascorbic acid, apple polyphenoloxidase and oxygen during a thermal treatment. Food Chemistry, 138(2-3), 2013, p. 1289–1297.
LIUA, K., YUANA, CH., CHENA, Y., LI H. and LIUA, J. Combined effects of ascorbic acid and chitosan on the quality maintenance and shelf life of plums. Scientia Horticulturae, 176, 2014, p. 45–53.
DENOYA, G.I., VAUDAGNA, S.R. and POLENTA, G. Effect of high pressure processing and vacuum packaging on the preservation of fresh-cut peaches. LWT - Food Science and Technology, 62(1), 2015, p. 801–806.
MISHRA, B.B., GAUTAM, S. and SHARMA, A. Free phenolics and polyphenol oxidase (PPO): The factors affecting post-cut browning in eggplant (Solanum melongena). Food chemistry, 139(1–4), 2013, p. 105–114.
WUYTS, N., DE WAELE, D. and SWENNEN, R. Extraction and partial characterization of polyphenol oxidase from banana (Musa acuminata Grande naine) roots. Plant Physiology and Biochemistry, 44(5-6), 2006, p. 308–314.
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