Effects of natural antioxidants on colour stability, lipid oxidation and metmyoglobin reducing activity in raw beef patties

• Autorzy: Liu F. , Xu Q. , Dai R. , Ni Y.
• Języki publikacji: EN

Abstrakty

EN

Background. Minced meats undergo oxidative changes and develop rancidity more quickly than intact muscle since grinding exposes more of the muscle surface to air and microbial contamination. Due to concerns about toxicological safety of synthetic antioxidants, recent studies have put more focus on natural antioxidant compounds derived from food components. Material and methods. The effects of four natural antioxidants (vitamin E, carnosine, grape seed extract and tea catechins) on oxidative processes and metmyoglobin reducing activity in raw beef patties during refrigerated (4°C) storage were investigated and the results were compared with butylated hydroxyanisole treatment patties. The correlation of lipid oxidation, colour and metmyoglobin reducing activity of beef patties were also studied. Results. Samples treated with carnosine had the highest redness values on the eighth day. Tea catechins, vitamin E and grape seed extract showed higher protective effect against lipid oxidation than carnosine. Metmyoglobin reducing activity increased greatly in all samples during the storage. Significant correlation between redness value and lipid oxidation was demonstrated, while a weak correlation between metmyoglobin reducing activity and any other parameters was shown.

• Wydawca: -
• Czasopismo: Acta Scientiarum Polonorum. Technologia Alimentaria
• Rocznik: 2015
• Tom: 14
• Numer: 1
• Opis fizyczny: p.37-44,fig.,ref.

Twórcy

autor

Liu F.

• College of Food Science and Nutritional Engineering, China Agricultural University, 17 Qinghua East Road, Beijing, China

autor

Xu Q.

• College of Food Science and Nutritional Engineering, China Agricultural University, 17 Qinghua East Road, Beijing, China

autor

Dai R.

• College of Food Science and Nutritional Engineering, China Agricultural University, 17 Qinghua East Road, Beijing, China

autor

Ni Y.

• College of Food Science and Nutritional Engineering, China Agricultural University, 17 Qinghua East Road, Beijing, China

Bibliografia

• Ahna, J., Grun, I. U., Mustaphab, A. (2007). Effects of plant extracts on microbial growth, color change, and lipid oxidation in cooked beef. Food Microbiol., 24, 7-14.
• Alp, E., Aksu, M. i. (2010). Effects of water extract of Urti- ca dioica L. and modified atmosphere packaging on the shelf life of ground beef. Meat Sci., 86, 468^173.
• Badr, H. M. (2007). Antioxidative activity of camosine in gamma irradiated ground beef and beef patties. Food Chem., 104, 2, 665-679.
• Bekhik, A. E. D., Geesink, G. H., Morton, J. D., Bicker- staffe, R. (2001). Metmyoglobin reducing activity and color stability of ovine longissimus muscle. Meat Sci., 57, 427-435.
• Bekhik, A. E. D., Geesink, G. H., Ilian, M. A., Morton, J. D., Bickerstaffe, R. (2003). The effects of natural antioxidants on oxidative processes and metmyoglobin reducing activity in beef patties. Food Chem., 81,2,175-187.
• Bekhit, A. E. D., Faustman, C. (2005). Metmyoglobin reducing activity. Meat Sci., 71,407-439.
• Brannan, R. G., Mah, E. (2007). Grape seed extract inhibits lipid oxidation in muscle from different species during refrigerated and frozen storage and oxidation catalyzed by peroxynitrite and iron/ascorbate in a pyrogallol red model system. Meat Sci., 77, 540-546.
• Cheng, J. H., Wang, S. T., Ockerman, H. W. (2007). Lipid oxidation and color change of salted pork patties. Meat Sci., 75, 71-77.
• Das, A. K., Anjaneyulu, A. S. R., Biswas, S. (2006). Effect of camosine preblending on the quality of ground buffalo meat. Food Chem., 97, 531-538.
• Djenane, D., Martínez, L., Escalante, A. S., Beltrán, J. A., Roncalés, P. (2004). Antioxidant effect of carnosine and carnitine in fresh beef steaks stored under modified atmosphere. Food Chem., 85, 453-459.
• Falowo, A. B., Fayemi, P. O., Muchenje, V. (2014). Natural antioxidants against lipid-protein oxidative deterioration in meat and meat products: A review. Food Res. Int., 64, 171-181.
• Faustman, C., Sun, Q., Mancini, R., Suman, S. P. (2010). Myoglobin and lipid oxidation interactions: Mechanistic bases and control. Meat Sci., 86, 86-94.
• Garrido, M. D., Auqui, M., Martí, N., Linares, M. B. (2011). Effect of two different red grape pomace extracts obtained under different extraction systems on meat quality of pork burgers. LWT-Food Sci. Technol., 44, 2238-2243.
• Grunwald, E. W., Richards, M. P. (2006). Studies with Myoglobin variants indicate that released hemin is the primary promoter of lipid oxidation in washed fish muscle. J. Agr. Food Chem., 54, 4452-4460.
• Hayes, J. E., Stepanyan, V, Allen, P., O’Grady, M. N., O’Brien, N. M., Kerry, J. P. (2009). The effect of lutein, sesamol, ellagic acid and olive leaf extract on lipid oxidation and oxymyoglobin oxidation in bovine and porcine muscle model systems. Meat Sci., 83, 201-208.
• Jose, C. (2011). Anti- and pro-oxidant interactions with myoglobin in lamb meat, and the influence on color stability. (PhD thesis). Murdoch University.
• Kim, S., Min, S. C., Shin, H., Lee, Y., Cho, A. R., Kim, S. Y., Han, J. (2013). Evaluation of the antioxidant activities and nutritional properties of ten edible plant extracts and their application to fresh ground beef. Meat Sci., 93, 715-722.
• Krzywicki, K. (1982). The determination ofheam pigments in meat. Meat Sci., 7, 29-35.
• Lorenzo, J. M., Sineiro, J., Amado, I. R., Franco, D. (2014). Influence of natural extracts on the shelf life of modified atmosphere-packaged pork patties. Meat Sci., 96, 526-534.
• Liu, F., Dai, R., Zhu, J., Li, X. (2010). Optimizing color and lipid stability of beef patties with a mixture design incorporating with tea catechins, camosine, and a-tocopherol. J. Food Eng., 98(2), 170.
• Mielnik, M. B., Olsen, E., Vogt, G., Adeline, D., Skrede, G. (2006). Grape seed extract as antioxidant in cooked, cold stored turkey meat. LWT-Food Sci. Technol., 39, 3, 191-198.
• Mikkelsen, A., Juncher, D., Skibsted, L. H. (1999). Metmyoglobin reductase activity in porcine m. longissimus dorsi muscle. Meat Sci., 51,2, 155-161.
• Pong, C.-Y., Chiou, T.-K., Nieh, F.-P., Jiang, S.-T. (2000a). Purification and characterization of metmyglobin reductase from ordinary musle of blue-fin tuna. Fisheries Sci., 66, 599-604.
• Ripoll, G., Joy, M., Mufloz, F. (2011). Use of dietary vitamin E and selenium (Se) to increase the shelf life of modified atmosphere packaged light lamb meat. Meat Sci., 87, 88-93.
• Suman, S. P., Hunt, M. C., Nair, M. N., Rentfrow, G. (2014). Improving beef color stability: Practical strategies and underlying mechanisms. Meat Sci., 98, 490-504.
• Shah, M. A., Bosco, S. J. D., Mir, S. A. (2014). Plant extracts as natural antioxidants in meat and meat products. Meat Sci, 98, 21-33.
• Tang, S. Z, Kerry, J. P, Sheehan, D, Buckley, D. J. (2001a). A comparative study of tea catechins and a-tocopherol as antioxidants in cooked beef and chicken meat. Eur. Food Res. Technol, 213, 286-289.
• Tang, S. Z, Kerry, J. P, Sheehan, D, Buckley, D. J. (2002). Antioxidative mechanisms of tea catechins in chicken meat systems. Food Chem, 76, 45-51.

Identyfikatory

DOI

10.17306/J.AFS.2015.1.4