Abstract

Simple SummaryOleuropein, betaine, magnesium, and vitamin E show antioxidant and/or metabolic effects on the organism that are reflected, in many cases, in performances and meat quality. This study evaluated whether the combination of these nutrients at two doses manifest different effects on the final product. Both combinations were enough to improve the oxidative status of pigs, although performances were not affected. However, the higher doses increased n-6 and n-3 PUFA in the triglycerides and free fatty acid fractions that resulted in meat that was more susceptible to oxidation.This study evaluates the effect of the dietary combination of oleuropein extract (1200 mg/kg) and betaine (1000 mg/kg), magnesium oxide (600 mg/kg), and α–tocopheryl acetate (400 mg/kg), or a half-dose of these compounds, on pigs’ performance, oxidative status, and meat quality characteristics (drip loss, TBARS, and texture and fatty acid profile of intramuscular fat). Sixty-six barrows and females were slaughtered at 120 kg of BW. Performance and carcass yield were not changed by treatments. The high-dose mixture resulted in higher serum ferric reducing/antioxidant power (p = 0.0026), lower glucose (p = 0.03) and a tendency to have lower serum TBARS (p = 0.07) when compared to control. Percentage of drip loss, moisture content, intramuscular fat, or texture parameters were not modified by dietary treatments. Pigs supplemented with the high-dose mixture had higher PUFA (p = 0.0001), n-6 (p = 0.0001), n-3 (p = 0.0095) and lower MUFA (p = 0.0064) in the neutral lipid fraction of intramuscular fat. Free PUFA, mainly n-3 fatty acids (p = 0.0009), were also higher in the meat of pigs fed the high-dose mixture compared with the others. A higher mobilization (neutral to free fatty acids hydrolysis) of n-3 and MUFA fatty acids in the muscle from pigs fed the high-dose mixture was observed. However, dietary mixture supplementation tended to increase MUFA (p = 0.056) and decrease the total PUFA (p = 0.0074) proportions in muscle polar lipids. This specific fatty acid composition of meat from pigs supplemented with the high-dose mixture could be responsible for the higher meat lipid oxidation observed in this group when compared to the other groups. Consequently, the low-dose mixture would be more adequate for maintaining the oxidative status of pigs and, meat lipid stability.

Highlights

  • Health status and wellness of animals in vivo has been related to the meat quality of final products [1,2]

  • Oleuropein is one of the most abundant polyphenol compounds present in the olive leaves (Olea europaea) but it has isolated from other plant species and fruits [4]

  • Recent studies show the positive effects of olive by-products, thanks to their antioxidant properties [4], and due to their capacity to modify nutrient metabolism, with changes in glucose uptake, lipid, and amino acid profiles [5] that may affect meat quality [6,7]

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Summary

Introduction

Health status and wellness of animals in vivo has been related to the meat quality of final products [1,2]. Recent studies show the positive effects of olive by-products, thanks to their antioxidant properties [4], and due to their capacity to modify nutrient metabolism, with changes in glucose uptake, lipid, and amino acid profiles [5] that may affect meat quality [6,7]. The combination of olive extracts such as oleuropein has been reported to have synergistic effects in vivo with other antioxidants such as vitamin E [5,6]. Vitamin E is one of the most studied compounds in the literature because of its effects in vivo [5,8] and post-mortem [9], explained by its incorporation into biological membranes and consequent accumulation in different tissues. Vitamin E has been shown to be effective in improving colour and lipid stability, muscle proteolysis [10]

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