Page 397 - Natural Antioxidants, Applications in Foods of Animal Origin

P. 397

376 Natural Antioxidants: Applications in Foods of Animal Origin
VetBooks.ir Cheah, P. B.; Ledward, D. A. Catalytic Mechanism of Lipid Oxidation Following High Pres-

sure Treatment in Pork Fat and Meat. J. Food Sci. 1997, 62, 1135–1138.
Cheftel, J. C.; Culioli, J. Effects of High Pressure on Meat: A Review. Meat Sci. 1997, 46,
211–236.
Chu, Y. H.; Hwang, L. S. Food Lipids. In Chemical and Functional Properties of Food
Components; Sikorski Z. E., Ed.; CRC Press: London, 2002; pp 115–132.
Church, N. Developments in Modified-Atmosphere Packaging and Related Technologies.
Trends Food Sci. Technol. 1994, 5, 345–352.
Clark, D. S.; Lentz, C. P.; Roth, L. A. Use of Carbon Monoxide for Extending Shelf-Life of
Prepackaged Fresh Beef. Can. Inst. Food Sci. Technol. J. 1976, 9, 114–117.
Coma, V.; Kerry, J. P. Antimicrobial and Antioxidant Active Packaging for Meat and
Poultry. In Advances in Meat, Poultry and Seafood Packaging; Kerry, J. P. Ed.; Woodhead
Publishing: Oxford, 2012; pp 477–503.
Contini, C.; Álvarez, R.; O'Sullivan, M.; Dowling, D. P.; Gargan, S. Ó.; Monahan, F. J. Effect
of an Active Packaging with Citrus Extract on Lipid Oxidation and Sensory Quality of
Cooked Turkey Meat. Meat Sci. 2014, 96, 1171–1176.
Cross, H. R.; Leu, R.; Miller, M. F. Scope of Warmed-Over Flavour and its Importance to the
Meat Industry. In Warmed-over Flavour of Meat; Angelo, A. J. S. T., Bailey M. E., Eds.;
Academic Press: New York, 1987; pp 1–18.
Dávalos, A.; Miguel, M.; Bartolomé, B.; López-Fandiño, R. Antioxidant Activity of Peptides
Derived from Egg White Proteins by Enzymatic Hydrolysis. J. Food Protect. 2004,
1939–1944.
Day, B. P. F. Active Packaging – a Fresh Approach. J. Brand Technol. 2001, 1, 32–41.
Decker, E. A.; Welch, B. Role of Ferritin as a Lipid Oxidation Catalyst in Muscle Foods. J.
Agr. Food Chem. 1990, 38, 674–677.
Decker, E. A.; Antioxidant Mechanisms. In Food Lipids. Chemistry, Nutrition, and Biotech-
nology; Akoh, C. C., Min D. B., Eds.; Marcel Dekker: New York, 1998; pp 397–421.
Decker, E. A.; Livisay, S. A.; Zhou, S. A Re-Evaluation of the Antioxidant Activity of Puri-
fied Carnosine. Biochemistry(Moscow). 2000, 65, 766–770.
Di Bernardini, R.; Harnedy, P.; Bolton, D.; Kerry, J.; O’Neill, E.; Mullen, A.M.; Hayes, C.
Antioxidant and Antimicrobial Peptidic Hydrolysates from Muscle Protein Sources and
by-Products. Food Chem. 2011, 124, 1296–1307.
Dobrucka, R.; Cierpiszewski, R. Active and Intelligent Packaging Food–Research and Devel-
opment–A Review. Pol. J. Food Nutr. Sci. 2014, 64, 7–15.
Domínguez, R.; Gómez, M.; Fonseca, S.; Lorenzo, J. M. Effect of Different Cooking Methods
on Lipid Oxidation and Formation of Volatile Compounds in Foal Meat. Meat Sci. 2014a,
97, 223–230.
Domínguez, R.; Gómez, M.; Fonseca, S.; Lorenzo, J. M. Influence of Thermal Treatment on
Formation of Volatile Compounds, Cooking Loss and Lipid Oxidation in Foal Meat. LWT-
Food Sci. Technol. 2014b, 58, 439–445.
Domínguez, R.; Martínez, S.; Gómez, M.; Carballo, J.; Franco, I. Fatty Acids, Retinol and
Cholesterol Composition in Various Fatty Tissues of Celta Pig Breed: Effect of the Use of
Chestnuts in the Finishing Diet. J. Food Compos. Anal. 2015, 37, 104–111.
Eilert, S. J. New Packaging Technologies for the 21st Century. Meat Sci. 2005, 71, 122–127.
Erickson, M.C. Lipid Oxidation of Muscle Foods. In Food Lipids. Chemistry, Nutrition, and
Biotechnology; Akoh, C. C.; Min D. B. Eds.; Marcel Dekker: New York, 2022; pp 321-364.
Erickson, M. C.; Hultin, H. O. Influence of Histidine on Lipid Peroxidation in Sarcoplasmic
Reticulum. Arch. Biochem. Biophys. 1992, 292, 427–432.

392 393 394 395 396 397 398 399 400 401 402