Mechanism of Oxidation in Foods of Animal Origin                 5
  VetBooks.ir  some fermented sausages and the desirable flavor of which does not occur


            until hydrolysis of some of the fat and a certain degree of oxidation has taken
            place during ripening (Pearson et al., 1977). On the other hand, lipid oxida-
            tion during cooking may be a source of intermediate which react with other
            components to give important constituents of the desirable flavor of normal
            cooked meat (Enser, 1987). The types of flavor developed from the volatile
            lipid oxidation compounds depend on a multitude of complex interactions,
            concentration ranges, and the medium in which they are tasted (Frankel,
            1984). Many of the reactions involved in the formation of volatile aroma
            compounds from lipid, follow the same basic pathways for both thermal and
            rancid oxidation and similar volatile products are formed. However, subtle
            differences in the precise mechanisms of oxidation under storage conditions
            and under thermal processing lead to mixtures of volatiles exhibiting both
            qualitative and quantitative differences (Mottram, 1987).



            1.3  BASIC MECHANISM OF LIPID OXIDATION IN FOODS OF
            ANIMAL ORIGIN

            The lipid oxidation in foods of animal origin is assumed to proceed along a
            free radical route (autoxidation), photooxidation route and enzymatic route.
            The oxidation mechanism is basically explained by invoking free-radical
            reactions, while the photooxidation and lipoxygenase (LOX) routes differ
            from it at the initiation stage only. For this reason, they can be treated as
            different forms of free radical reaction initiation.



            1.3.1  FREE RADICAL OXIDATION

            The two major components involved in lipid oxidation are unsaturated fatty
            acids and oxygen. In this process, atmospheric oxygen is added to some
            fatty  acids, producing  unstable  intermediates  that  finally  breakdown to
            form unpleasant flavor and aroma compounds (Erickson, 2003). Although
            enzymatic and photogenic oxidation may play a role, the most common and
            important process by which unsaturated fatty acids and oxygen interact is a
            free radical mechanism (Erickson, 2003). A free radical reaction or autoxi-
            dation is the main reaction involved in oxidative deterioration of food lipids,
            including foods of animal origin (Hoac et al., 2006). It is a chain reaction that
            consists of initiation, propagation, and termination reactions, and involves
            the production of free radicals (Gunstone & Norris, 1983; Nawar, 1996;