Los procesos de fritura y su relación con los valores nutricionales y la inocuidad: Una visión integral desde la Seguridad Alimentaria

Autores/as

  • Mariana Agostina Marchesino FCA-UNC
  • Paloma López
  • Gisela Guerberoff FCA-UNC
  • Ruben Olmedo FCA-UNC

Palabras clave:

Aceites, Grasas, Alimentos fritos, Acrilamidas, Calorías, Toxicidad

Resumen

Durante la cocción de los alimentos, ocurre gran número de reacciones físico-químicas, las cuales tienen impacto tanto en sus propiedades sensoriales como nutricionales. Debido a la creciente utilización de la fritura como método de cocción, resultan de interés entender las modificaciones que ocurren en los alimentos y en las grasas y aceites de fritura durante el proceso de termo-oxidación, y los efectos nutricionales y toxicológicos asociados al consumo de productos fritos. A su vez en la actualidad se están evaluando distintos métodos que minimicen estos riesgos. El grupo de Seguridad Alimentaria del Laboratorio de Tecnología de Alimentos de la Facultad de Ciencias Agropecuarias de la Universidad Nacional de Córdoba lleva adelante actividades de investigación, extensión y formación con el fin de divulgar y concientizar sobre la relación entre los procesos de fritura y el deterioro de calidad nutricional y de inocuidad.

Citas

Aladedunye, F., & Przybylski, R. (2013). Frying stability of high oleic sunflower oils as affected by composition of tocopherol isomers and linoleic acid content. Food Chemistry, 141, 2373-2380.
Antonova, I., Mallikarjunan, P., & Duncan, S. E. (2003). Correlating Objective Measurements of Crispness in Breaded Fried Chicken Nuggets with Sensory Crispness. Journal of Food Science, 68(4), 1308–1315. doi:10.1111/j.1365-
Banerjee, Soumitra. (2017). A Short Review on Vacuum Frying-A Promising Technology for Healthier and Better Fried Foods. International Journal of Nutrition and Health Sciences. 2. 68-71.
Bognár A. Comparative study of frying to other cooking techniques influence on the nutritive value. Grasas y Aceites 1998;49(3-4):250-60.
Chapman S (2004). The application of edible films and coatings in foods. CCFRA. New Technol. Bulletin N° 29
Choudhary, M., Grover, K., & Kaur, G. (2015). Development of rice bran oil blends for quality improvement. Food Chemistry, 173, 770–777. doi:10.1016/j.foodchem.2014.10.051
De Oliveira Otto MC, Mozaffarian D, Kromhout D, Bertoni AG, Sibley CT, Jacobs DR Jr, et al. Dietary intake of saturated fat by food source and incident cardiovascular disease: the Multi-Ethnic Study of Atherosclerosis. Am J Clin Nutr. 2012;96(2):397- 404.
European-Commission. Commission recommendation of 10 January 2011 on investigations into the levels of acrylamide in food. 2011. [December 8, 2014].
Grootveld M., Percival B. C., Leenders J., Wilson P. B. (2020) Potential Adverse Public Health Effects Afforded by the Ingestion of Dietary Lipid Oxidation Product Toxins: Significance of Fried Food Sources. Nutrients 12, 974.
Habibi-Nodeh, F., Farhoosh, R. & Sharif, A. Frying stability time of olive oils estimated from the oxidative stability index. Food Measure 13, 1831–1838 (2019).
Hashempour-Baltork, F., Torbati, M., Azadmard-Damirchi, S., & Savage, G. P. (2016). Vegetable oil blending: A review of physicochemical, nutritional and health effects. Trends in Food Science & Technology, 57, 52–58.
Juárez MD, Sammán N. El deterioro de los aceites durante la fritura. Rev Esp Nutr Comunitaria 2007;13(2):82-94
Knol JJ, et al. Kinetic modelling: a tool to predict the formation of acrylamide in potato crisps. Food Chem 2009;113(1):103–9.
Kochhar S.P., Gertz C. New theorical and practical aspects of the frying process. European Journal of Lipid Science and Technology 2004;106(11):722-727.
Li X, Li J, Wang Y, Cao P, Liu Y. Effects of frying oils' fatty acids profile on the formation of polar lipids components and their retention in French fries over deep-frying process. Food Chem. 2017;237:98‐105
Mallikarjunan, P., Chinnan, M. S., Balasubramaniam, V. M., Phillips, R. D. (1997). Edible coatings for deep-fat frying of starchy products. LWT - Food Science and Technology, 30(7), 709-714.
Marchiori G. N. , González A. L., Perovic N. R., Defagó M. D. Una mirada global sobre la influencia de los patrones alimentarios en las enfermedades cardiovasculares. Perspect Nutr Humana. 2017;19:79-92.
Mellema M. Mechanism and reduction of fat uptake in deep-fat fried foods. Trends in Food Science & Technology 2003;14:364-73.
Ministerio de Salud de la Nación. Guías Alimentarias para la Población Argentina,Buenos Aires 2016. http://www.msal.gob.ar/images/stories/bes/graficos/0000001007cnt-2017-06_guia-alimentaria-poblacion-argentina.pdf
Mohammad Hossein Omid Mirzarasoli, Hossien Hasan Nezhad Mahsa Rezapoor, Hadad Khodaparast (2019). The effect of substitute hydrocolloids on oil uptake in fried foods: A Review. International Congress on Engineering, Technology & Innovation.
Moncada L. M., Gualdrón L. Retención de nutrientes en la cocción, freído y horneado de tres alimentos energéticos. Revista de Investigación 2006; 6(2):179-187.
Olmedo, R.; Asensio C.; Nepote, V.; Mestrallet, M.G.; Grosso, N.R. (2009) Chemical and sensory stability of fried-salted peanuts flavored with oregano essential oil and olive oil. Journal Of The Science Of Food And Agriculture; 89: 2128 – 2128
Olmedo, R.; Nepote, V.; Mestrallet, M.G.; Grosso, N.R. (2008). Effect of the essential oil addition on the oxidative stability of fried-salted peanuts. International Journal Of Food Science And Technology; 43: 1935 – 1935.
OMS(2008). Interim summary of conclusions and dietary recommendations on total fat and fatty acids. Joint FAO/WHO expert consultation on fats and fatty acids in human nutrition. Geneva: World Health Organization.
Orlien, V., & Bolumar, T. (2019). Biochemical and Nutritional Changes during Food Processing and Storage. Foods, 8(10), 494.
Padmavathy, A., Siddhu, A., & Sundararaj, P. (2001). Effect of blending edible grade crude palm oil with refined groundnut or sunflower oils on storage stability and sensory attributes. The Oil Technologists' Association of India, 33, 93e103.
Santos C, Molina-Garcia L, Cunha S, Casal S (2018).Fried potatoes: Impact of prolonged frying in monounsaturated oils. Food Chemistry; 243 (15): 192-201.
Shahidi, F. (2005). Edible oil and fat products: Chemistry, properties and health effects. In Y. H. Hui (Ed.), Bailey's industrial oil and fat products (pp. 1e60). New York: Wiley Interscience.
Torres-Torres F, Trápaga Delfín Y (coord.). La alimentación de los mexicanos en la alborada del tercer milenio. México: Ed. IIEC-UNAM y Miguel Ángel Porrúa; 2001.
Valenzuela A, Sanhueza J, Nieto S, Petersen G, Tavella M. Estudio comparativo en fritura de la estabilidad de diferentes aceites vegetales. Aceites Grasas 2003; 53(4), 568-73.
Xiaotian Zhang, Min Zhang, Benu Adhikari. Recent developments in frying technologies applied to fresh foods. Trends in Food Science & Technology. 98 (2020) 68-81.

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Publicado

2020-07-01

Número

Sección

COMUNICACIONES Y OTROS