Restructured hams were made from modified food starch (MFS), kappa-carrageenan (k-c), isolated soy protein (ISP), and processed with different levels of PSE pork [100% Normal, 50% PSE/50% Normal, 100% PSE]. Hams were ground, tumbled for 2h with a brine, stuffed, and water cooked. Bind strength values decreased and expressible moisture increased with addition of PSE pork to the ISP and k-c treatments. Incorporation of MFS decreased bind strength and expressible moisture and increased yields in the 100P treatment. Results indicated MFS enhanced the water retention of PSE pork in a restructured product.
Three natural antioxidant systems, tocopherol, extract of rosemary, a tocopherol and rosemary combination, and BHA/BHT were evaluated in frankfurters prepared from chicken and pork. Thiobarbituric acid numbers of refrigerated bulk and vacuum packaged samples stored in darkness for up to 18 days indicated that natural tocopherols provided significantly more protection than controls containing no antioxidant and were as effective as BHA/BHT in retarding oxidation. All bulkpackaged frankfurters except those containing BHA/BHT and tocopherols were inedible after 18 days. Color values indicated no evidence that any treatment provided better color stability.
The pinking defect in cooked, uncured meat has been a problem in the poultry industry for nearly 40 years. Through the years, analyses of data revealed various processing factors that seem to influence the specific biochemical conditions (pH, redox potential, denaturation, reacting ligands) of the meat that are related to the chemical state of the pigments in cooked meat, their structure, and reactivity. This review addresses endogenous conditions that affect the pigments' reactivity, and research studies conducted on in situ conditions resulting in pinking in cooked meat. Future studies could be devised for understanding mechanisms leading to developing processes for reduction/elimination of the pink defect in cooked white poultry meat.
The recovery of used frying oils is of commercial and economic importance. One additional reuse of recovered oil could provide considerable savings to the food processors. Seven commonly used filter aids: Silasorb, Britesorb, HB 600, Purifry, Frypowder, Activated Carbon, and Magnesol, as well as two commercially unavailable adsorbents, Sorbead AF and Calsilite were studied. A number of AOCS official methods were used to evaluate their adsorptiveness, free fatty acids (FFA), conjugated diene value (CDV), total polar components (TPC), oxidative stability index (OSI), color and viscosity (V). High performance size exclusion chromatography was employed to determine the amount of polymers and low molecular weight compounds. When heated to 150C prior to filtration, HB 600 was found to reduce FFA content by 84.5%. Frypowder improved oil stability by 38.3%, and Magnesol lightened oil color by 46.3%. After statistical analysis of the data, five of them were selected, two or three of which were blended to obtain the most effective combination. The blending of HB 600 and Magnesol reduced FFA and TPC by 90.8–93.7% and 6.0–17.8%, respectively, and improved oil stability by 23.4–24.7%. The adsorbent combinations have potential for use in practical frying operation to improve the functional and healthy aspects of used frying oils.
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