Abstract
Poultry is highly sensitive to oxidative reactions. Oxidative reactions have attracted considerable attention from animal and food scientists because of the adverse effects of these reactions on animal welfare, performance and food quality. Despite its implication in multiple biological functions magnesium (Mg) supplementation is typically overlooked in broiler diets. The objective of this study was to evaluate the effect of Mg supplementation (0.3%) using a commercial product (Optibreast®) on production parameters, the redox status and meat quality in broilers challenged with dietary (oxidized oil) and heat stress. The incidence of myopathies, namely, wooden breast (WB) and white striping (WS) was also assessed. Mg supplementation had a clear interaction with the absorption/accumulation of Ca in blood and breast muscle but this effect had no negative influence on any of the production parameters under study. Mg supplementation had positive effects on particular meat quality traits such as water holding capacity (WHC) and color. WHC may have other positive effects in turn on relevant sensory traits such as juiciness. Mg supplementation protected against protein oxidation in liver and plasma of broilers. This effect may be related to the increased activity of catalase in such tissues. Mg supplementation reduced the incidence of WS and WB myopathies to almost half the occurrence of such defects in animals fed a control diet. Further studies with a larger number of animals and the application of advanced proteomic/metabolomic tools are required to (1) corroborate the positive influence of Mg on myopathy incidence and (2) identify the underlying molecular basis of the proposed mechanisms.
Highlights
Feeding accounts for the largest percentage of the total cost in the poultry industry, and the influence of the dietary background on production parameters and poultry meat quality is indisputable.The optimization of the feeding ingredients and supplements is essential to adjust production costs and, guarantee consumer’s acceptance of the final product [1]
The health status of the birds was normal throughout the assay and no major issues were noticed in this regard
The live weight increased from 42.6 g to 2.4 kg and no significant differences were observed between treatments at any of the stages of production
Summary
Feeding accounts for the largest percentage of the total cost in the poultry industry, and the influence of the dietary background on production parameters and poultry meat quality is indisputable.The optimization of the feeding ingredients and supplements is essential to adjust production costs and, guarantee consumer’s acceptance of the final product [1]. In order to avoid these undesirable effects of LOX, assorted antioxidant solutions against poultry meat oxidation are commonly applied, and involve both nutritional (feed-based) and technological (formulation/packaging) strategies [2]. For the former, the application of phytochemicals and other specific micronutrients are of increasing interest [6]. Many other micronutrients are known to be essential for assorted biological functions but their role in the endogenous antioxidant defenses and the overall oxidative stability of poultry tissues is not so well understood. Magnesium is a good example of an essential element with recognized biological functions (i.e., muscle and bone growth) and limited knowledge about its influence on the oxidative stability and overall quality of poultry meat
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