Effect of sous-vide technique on fatty acid and mineral compositions of beef and liver from Bonsmara and non-descript cattle

Alfaia C.M.M., Castro M.L.F., Martins S.I.V., Portugal A.P.V., Alves S.P.A., Fontes C.M.G.A., Bessa R.J.B., Prates J.A.M. (2007). Effect of slaughter season on fatty acid composition, conjugated linoleic acid isomers and nutritional value of intramuscular fat in Barrosã- PDOveal. Meat Sci., 75: 44-52.Search in Google Scholar

Alfaia C.M.M., Alves S.P., Lopes A.F., Fernandes M.J.E., Costa A.S.H., Fontes C.M.G.A., Castro M.L.F., Bessa R.J.B., Prates J.A.M. (2010). Effect of cooking methods on fatty acids, conjugated isomers of linoleic acid and nutritional quality of beef intramuscular fat. Meat Sci., 84: 769-777.Search in Google Scholar

Araya J., Rodrigo R., Pettinelli P., Araya A.V., Poniachik J., Videla L.A. (2010). Decreased liver fatty acid Δ-6 and Δ-5 desaturase activity in obese patients. Obesity, 18: 1460-1463.Search in Google Scholar

Badiani A., Montellato L., Bochicchio D., Anfossi P., Zanardi E., Maranesi M. (2004). Selected nutrient contents, fatty acid composition, including conjugated linoleic acid, and retention values in separable lean from lamb rib loins as affected by external fat and cooking method. J. Agric. Food Chem., 52: 5187-5194.Search in Google Scholar

Baldwin D.E. (2012). Sous vide cooking: Areview. Int. J. Gastron Food Sci., 1: 15-30.Search in Google Scholar

Bonsmara SA (2016). Bonsmara breed. http://bonsmara.co.za/eng/Search in Google Scholar

Chilliard Y., Ferlay A., Rouel J., Lamberet G. (2003). Areview of nutritional and physiological factors affecting goat milk lipid synthesis and lypolysis. J. Dairy Sci., 86: 1751-1770.Search in Google Scholar

Czerwonka M., Szterk A. (2015). The effect of meat cuts and thermal processing on selected mineral concentration in beef from Holstein-Friesian bulls. Meat Sci., 105: 75-80.Search in Google Scholar

Czerwonka M., Szterk A., Waszkiewicz - Robak B. (2014). Vitamin B12 content in raw and cooked beef. Meat Sci., 96: 1371-1375.Search in Google Scholar

De Smet S. (2012). Meat, poultry, and fish composition: Strategies for optimizing human intake of essential nutrients. Anim. Frontiers, 2: 10-16.Search in Google Scholar

Domaradzki P., Florek M., Staszowska A., Litwińczuk Z. (2016). Evaluation of the mineral concentration in beef from Polish native cattle. Biol. Trace Elem. Res., 171: 328-332.Search in Google Scholar

Duan Q., Tait Jr. R.G., Schneider M.J., Beitz D.C., Wheeler T.L., Shackelford S.D., Cundiff L.V., Reecy J.M. (2015). Sire breeds effect on beef longissimus mineral concentrations and their relationships with carcass and palatability traits. Meat Sci., 106: 25-30.Search in Google Scholar

Enser M., Hallett K.G., Hewett B., Fursey G.A.J., Wood J.D., Harrington G. (1998). The Polyunsaturated fatty acid composition of beef and lamb liver. Meat Sci., 49: 321-327.Search in Google Scholar

Florek M., Litwińczuk Z., Skałecki P., Kędzierska - Matysek M., Grodzicki T. (2012). Chemical composition and inherent properties of offal from calves maintained under two production systems. Meat Sci., 90: 402-409.Search in Google Scholar

Folch J., Lees M., Sloane - Stanley G.H. (1957). Asimple method for the isolation and purification of total lipids from animal tissue. J. Biol. Chem., 226: 497-509.Search in Google Scholar

Garcıa- Segovia P., Andres - Bello A., Martınez- Monzo J. (2007). Effect of cooking method on mechanical properties, color and structure of beef muscle (M. pectoralis). J. Food Eng., 80: 813-821.Search in Google Scholar

Gerber N., Scheeder M.R.L., Wenk C. (2009). The influence of cooking and fat trimming on the actual nutrient intake from meat. Meat Sci., 81:148-154.Search in Google Scholar

Gorsuch T.T. (1970). The destruction of organic matter (1st edition). Oxford, New York, Toronto, Sydney, Braunschweig: Pergamon Press Ltd, 160 pp.Search in Google Scholar

Greenfield H., Southgate D.A.T. (2003). Food composition data: Production, management and use. www.fao.org/fileadmin/templates/food_composition. Accessed on 11/09/2015.Search in Google Scholar

Jayathilakan K., Sultana K., Radhakrishna K., Bawa A.S. (2012). Utilization of byproducts and waste materials from meat, poultry and fish processing industries:areview. J. Food Sci. Technol., 49: 278-293.Search in Google Scholar

Kurt S., Zorba Ö. (2007). Emulsion characteristics of beef and sheep offal. J. Muscle Foods., 18: 129-14210.1111/j.1745-4573.2007.00072.xSearch in Google Scholar

Legako J.F., Dinh T.T.N., Miller M.F., Brooks J.C. (2015). Effects of USDAbeef quality grade and cooking on fatty acid composition of neutral and polar lipid fractions. Meat Sci., 100: 246-255.Search in Google Scholar

Li R., Yu Q., Han L., Cao H. (2014). Nutritional characteristics and active components in liver from Wagyu×Qinchuan cattle. Korean J. Food Sci. Anim. Resour., 34: 214-220.Search in Google Scholar

Lopes A.F., Alfaia C.M.M., Partidário A. M.C.P.C., Lemos J.P.C., Prates J.A.M. (2015). Influence of household cooking methods on amino acids and minerals of Barrosã-PDOveal. Meat Sci., 99: 38-43.Search in Google Scholar

Mourouti N., Kontogianni M.D., Papavagelis C., Plytzanopoulou P., Vassilakou T., Psaltopoulou T., Malamos N., Linos A., Panagiotakos D.B. (2015). Meat consumption and breast cancer: Acase-control study in women. Meat Sci., 100: 195-201.Search in Google Scholar

Nantapo C.W., Muchenje V., Nkukwana T.T., Hugo A., Descalzo A., Grigioni G., Hoffman L.C. (2015). Socio-economic dynamics and innovative technologies affecting healthrelated lipid content in diets: Implications on global food and nutrition security. Food Res. Int., 76: 896-905.Search in Google Scholar

Orellana C., Peña F., García A., Perea J., Martos J., Domenech V., Acero R. (2009). Carcass characteristics, fatty acid composition, and meat quality of Criollo Argentino and Braford steers raised on forage inasemi-tropical region of Argentina. Meat Sci., 81: 57-64.Search in Google Scholar

Oz F., Zikirov E. (2015). The effects of sous-vide cooking method on the formation of heterocyclic aromatic amines in beef chops. LWT - Food Sci. Technol., 4: 120-125.Search in Google Scholar

Reykdal O., Rabieh S., Steingrimsdottir L., Gunnlaugsdottir H. (2014). Minerals and trace elements in Icelandic dairy products and meat. J. Food Compost. Anal., 24: 980-986.Search in Google Scholar

Roldan M., Antequera T., Armenteros M., Ruiz J. (2014). Effect of different temperature- time combinations on lipid and protein oxidation of sous-vide cooked lamb loins. Food Chem., 149: 129-136.Search in Google Scholar

Sanchez del Pulgar J., Gazquez A., Ruiz - Carrascal J. (2012). Physico-chemical, textural and structural characteristics of sous-vide cooked pork cheeks as affected by vacuum, cooking temperature, and cooking time. Meat Sci., 90: 828-835.Search in Google Scholar

Sarriés M.V., Murray B.E., Moloney A.P., Troy D., Beriain M.J. (2009). The effect of cooking on the fatty acid composition of longissimus muscle from beef heifers fed rations designed to increase the concentration of conjugated linoleic acid in tissue. Meat Sci., 81: 307-312.Search in Google Scholar

Severi S., Bedogni G., Manzieri A.M., Poli M., Battistini N. (1997). Effects of cooking and storage methods on the micronutrient content of foods. Eur. J. Cancer Prev., 6: 521-524.Search in Google Scholar

Tomović V.M., Petrović L.S., Tomović M.S., Kevrešan Ž.K., Džinic N.R. (2011). Determination of mineral contents of semimembranosus muscle and liver from pure and crossbred pigs in Vojvodina (northern Serbia). Food Chem., 124: 342-348.Search in Google Scholar

Valenzuela R., Espinosa A., González - Mañán D., D'Espessailles A., Fernández V., Videla L.A., Tapia G. (2012). n-3 long-chain polyunsaturated fatty acid supplementation significantly reduces liver oxidative stress in high fat induced steatosis. PLo S One, 7 (10): 46400.Search in Google Scholar

Vaudagna S.R., Sánchez G., Neira M.S., Insani E.M., Picallo A.B., Gallinger M.M., Lasta J.A. (2002). Sous vide cooked beef muscles: effects of low temperature-long time (LT-LT) treatments on their quality characteristics and storage stability. Int. J. Food Sci. Technol., 37: 425-441.Search in Google Scholar

Xie X., Meng Q., Cui Z., Ren L. (2012). Effect of cattle breed on meat quality, muscle fiber characteristics, lipid oxidation and fatty acids in China. Asian-Austral. J. Anim. Sci., 25: 824-831.Search in Google Scholar

Zhang Y., Wang X., Wang W., Zhan J. (2014). Effect of boiling and frying on nutritional value and in vitro digestibility of rabbit meat. Afr. J. Food Sci., 8: 92-103. Search in Google Scholar