Abstract
A study was conducted to investigate the effect of two dietary energy sources, soy bean oil, and sucrose on regulatory mechanisms of meat preservation. Twenty one day-old Hubbard commercial broilers were randomly allocated into two dietary treatment groups with six replicates per treatment, and four broilers per replicate. All birds were coded for the influence of energy source: fat based diet (FD), and sugar based diet (SD). Formulated grower diets were isonitrogenous and isocaloric. The chickens were slaughtered and then boneless, skinless ground chicken tight meat was prepared. Both raw and cooked meats were analyzed for lipid and protein oxidation, and sensory panel evaluation. In addition, meat from the small muscles of the raw thigh was used to evaluate other meat quality characteristics. Proximate analyses showed no significant differences between both dietary treatments on protein, ash and moisture percentage values. Meat samples of the group that was fed FD showed higher significant values of both TBARS and total carbonyl at day 7 of storage time. However, samples of the second group (Fed SD) showed lower values of both ultimate pH and water separation % using raw thigh meat. The effect of FD treatment on the meat composition appeared clearly especially on fat percentage content. In addition, meat samples obtained from chickens fed SD showed better significant values of the overall acceptability attribute. According to the current findings, sucrose could be an excellent alternative to oil in dietary broilers which improved the meat preservation bio-system, and post-mortem storage stability.
Highlights
It is known that conditions of feeding and maintaining pregnant cows significantly impact on their offspring (Sheldon еt al., 2006; Mainardes and DeVries, 2016; Fabris еt al., 2017; Fedorovych, 2017)
We found that under the development of endogenous intoxication, the number of erythrocytes of cows in the 8th month of pregnancy from the experimental group decreased by 13.5%
The significant increase in the number of leukocytes in the blood of intoxicated animals is related to progressing inflammatory processes in the organism of pregnant cows as a result of the progression of endogenous intoxication
Summary
It is known that conditions of feeding and maintaining pregnant cows significantly impact on their offspring (Sheldon еt al., 2006; Mainardes and DeVries, 2016; Fabris еt al., 2017; Fedorovych, 2017). Researchers distinguish several important biochemical mechanisms of development of endogenous intoxication of animals, the activation of processes of free radical oxidation (Gutyj еt al., 2016; Hariv and Gutyj, 2016; Khariv еt al., 2016; Martyshuk еt al., 2016; Khariv and Gutyj, 2017). It has been shown that in the conditions of development of endogenous intoxication among pregnant cows, in the ninth month, the content of triiodthyronine and thyroxine decreases and the level of thyrotropic hormone of the pituitary gland increases. Endogenous intoxication of pregnant cows causes suppression of thyroid gland function, which impacts on fat, protein and carbohydrate metabolism (Hrymak and Hunchak, 2014). The development of endogenous intoxication of pregnant cows causes decrease in arterial oxygen content and development of tissue hypoxia, which slows the processes of oxidation and recovery of NADP, a coenzyme of more than 250 dehydrogenases
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