Natural antioxidants play an important role in maintaining and improving poultry's well-being, survival and productive and reproductive performance. Pyocyanin, a secondary blue redox-active metabolite, is one of these natural antioxidants that exert several biological activities to improve birds' performance. This study estimated the effect of dietary supplementation with pyocyanin powder (PP) on broiler's growth, carcase and serum properties, meat quality and microbial load activity. A total of 180 1-week-old unsexed chicks were randomly allocated into three groups. The first group served as a control (C) and fed the basal diet, while the second and third groups (P75 and P150) were fed the basal diet supplemented with 75.0 and 150.0 mg PP/kg, respectively. Results showed that overall body weight gain (BWG) was improved (p<.05) in P75 compared to P150 and control groups. Feed intake and feed conversion ratio (FCR) of chicks fed the diet containing PP levels were not altered during all experimental periods compared to the control. Dietary treatments did not affect all carcase traits, blood biochemical parameters and meat sensory characteristics at five weeks of age. Antioxidative status was improved by pyocyanin supplementation as serum malondialdehyde (MDA) was reduced while GST and GSH levels were elevated in P75 and P150 compared to the control. Dietary PP supplements increased (p<.05) the pH, lightness and redness of pectoralis major muscle and reduced (p<.05) the yellowness of the muscle and its contents of thiobarbituric acid and total volatile basic nitrogen. The PP addition showed antibacterial and antifungal activities against several pathogenic bacteria and mycotoxigenic fungi. It could be concluded that pyocyanin can be introduced as a natural, functional and phytogenic feed additive to boost broiler's growth, improve their meat quality, produce nutritious meat products and reduce pathogenic bacteria without adverse impacts on their productivity. HIGHLIGHTSThis work investigated the effect of pyocyanin powder on broiler chickens. The addition of pyocyanin at 75.0 mg/kg diet improved Body weight gain (BWG) and meat quality characteristics. Pyocyanin exerted antibacterial and antifungal activity against several pathogenic bacteria. Pyocyanin could be used as a natural and functional additive to poultry diets.
Physicochemical, microbiological and sensory properties of low fat probiotic yoghurt fortified with mango pulp powder were investigated. Mango pulp powder was added at ratios of 1, 2 and 3 %. Yoghurt treatments were analyzed when fresh and after 5, 10 and 15 days of storage at 5 ± 1˚C. Fortification of low fat yoghurt with mango pulp powder increased the total solids, protein, ash, pH, dietary fiber, viscosity, phenolic contents and antioxidant activity. Increments were proportional to the mango pulp powder fortification concentration. On the other hand, the acidity and synersis decreased with the increase of the added mango pulp fiber. Fortification of low fat yoghurt with mango pulp powder improved the viability of Streptococcus thermophiles, Lactobacillus acidophilus and Bifidobacterium bifidum and this improvement was proportional to the concentration of mango pulp powder. Low fat yoghurt made with added of 3% of mango pulp powder achieved the highest scores for sensory properties, compared to other treatments. It could be concluded that mango pulp powder can be used at a rate of 3% as a source of bioactive components and dietary fiber in making of low fat yoghurt, which enhanced its physicochemical, microbiological, antioxidant and sensory properties.
Fiber-enriched food has numerous health benefits. This study develops functional fiber-enriched pasta (FEP) by partially substituting wheat flour for alcohol-insoluble residue prepared from potato processing byproducts (AIR-PPB) at various particle sizes (PS). The independent variables’ effects, AIR-PPB at 2–15% substitution levels, and PS 40–250 µm were investigated in terms of chemical, cooking, thermal, and sensory properties. AIR-PPB is rich in total dietary fibers (TDF) (83%), exhibiting high water-holding capacity (WHC) and vibrant colors. Different concentrations of AIR-PPB increase TDF content in FEPs by 7–21 times compared to the control pasta (CP). Although the optimal cooking time (OCT) decreases by 15–18% compared to CP, where a lower OCT should reduce cooking time and save energy, cooking loss (Cl) increases slightly but remains within an acceptable range of 8%. Additionally, AIR-PPB altered the texture properties of FEP, with a moderate decrease in mass increase index (MII), firmness, and stickiness. AIR-PPB impairs the gluten network’s structure in pasta due to AIR-PPB’s WHC, which competes with starch for water binding, increasing the starch gelatinization temperature. FEPs show an increased lightness and yellowness and improved sensory properties. Highly acceptable FEPs were obtained for the following substitution levels: FEP11 (AIR-PPB at 2% and PS of 145 µm), FEP9 (AIR-PPB 4% level with PS of 70 µm), FEP6 (AIR-PPB of 4% level with 219 µm PS), and FEP1 (AIR-PPB = 8.5% with 40 µm PS), as compared to other FEPs.
The present study investigated the impacts of dried okra fruit powder (DOFP), used as a natural feed supplement, on growth, carcass, blood, and meat quality parameters of broilers. A total of 240 unsexed, one-week-old chicks were randomly allotted to 4 equal groups with 6 replicates in each group (i.e., 10 birds/replicate). The dietary treatments consisted of the basal diet as control, and 3 DOFP groups, supplemented with 1.0, 2.0, and 3.0 g DOFP/kg feed, respectively. The results showed that the highest values of live body weight and body weight gain were observed in the group with 1.0 g of DOFP/kg of feed during the fifth week of age and between 1 and 5 wk of age, respectively. During 1 to 3 wk of age, daily feed consumption of chicks fed DOFP-supplemented diets increased numerically with increasing DOFP levels. Dietary treatments significantly depressed liver, thigh, and dressing fat percentages. Chicks fed the diet containing 1.0 g of DOFP/kg of feed had the lowest values for serum urea and creatinine compared with the other treatment group. In addition, the concentration of liver enzymes decreased with increasing DOFP levels, except for the groups fed 3.0 and 1.0 g of DOFP/kg of diet. Oxidative rancidity of broiler meat samples containing DOFP in their diets was lower than that of the control samples, throughout the storage period. It can be concluded that DOFP is a useful phytogenic additive, which can lower the percentage of abdominal fat of the carcass, as well as alanine aminotransferase, urea, and creatinine in the blood. Furthermore, all sensory characteristics of the meat were improved by the addition of DOFP to broiler diets. It could be concluded that DOFP can be used as a natural supplement in broiler diets for improving growth performance and reducing abdominal fat, blood creatinine, and urea.
Valorizing agricultural wastes to preserve food or to produce functional food is a general trend regarding the global food shortage. Therefore, natural preservatives were developed from the seed waste of the cluster bean and the common bean to extend the shelf life of fresh buffalo meat steak and boost its quality via immersion in high-solubility peptides, cluster bean protein hydrolysate (CBH), and kidney bean protein hydrolysate (RCH). The CBH and the RCH were successfully obtained after 60 min of pepsin hydrolysis with a hydrolysis degree of 27–30%. The SDS-PAGE electropherogram showed that at 60 min of pepsin hydrolysis, the CBH bands disappeared, and RCH (11–48 kD bands) nearly disappeared, assuring the high solubility of the obtained hydrolysates. The CBH and the RCH have considerable antioxidant activity compared to ascorbic acid, antimicrobial activity against tested microorganisms compared to antibiotics, and significant functional properties. The CBH and the RCH (500 µg/mL) successfully scavenged 93 or 89% of DPPH radicals. During the 30-day cold storage (4 °C), the quality of treated and untreated fresh meat steaks was monitored. Protein hydrolysates (500 g/g) inhibited lipid oxidation by 130–153% compared to the control and nisin and eliminated 31–55% of the bacterial load. The CBH and the RCH (500 µg/g) significantly enhanced meat redness (a* values). The protein maintained 80–90% of the steak’s flavor and color (p < 0.05). In addition, it increased the juiciness of the steak. CBH and RCH are ways to valorize wastes that can be safely incorporated into novel foods.
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