EFFECT OF FEED ADDITIVE DHQEC ON INDICATORS OF ANTIOXIDANT STATUS IN FATTENING PIGS

World consumption of pork is steadily increasing, with the growing demand for pork being met by increasing both the number of pigs and their slaughter weight. However, pork production faces negative factors leading to the development of oxidative stress, which does not allow the genetic potential of the breeds to be fully realised. Particular attention is paid to the post-weaning period in pigs, when they are exposed to numerous stresses, with low adaptive capacity. This is an important period in pig rearing as it is often accompanied by temporary low feed intake, poor growth, intestinal dysbiosis and diarrhoea after weaning. These factors pose a threat to animal health and welfare, increasing the risk of mortality and leading to significant economic losses. For many years the problem of oxidative stress has been solved by the use of zinc oxide in the diets of weaned piglets. The use of natural antioxidant additives in pig diets is becoming more and more relevant in pig breeding practice. Natural antioxidants include ascorbic acid (vitamin C), tocopherol (vitamin E) and dihydroquercitin. The aim of our research was to create and test a feed complex with the additive properties of antioxidants and vitamins. We developed a new feed complex of Dihydroquercetin (DHQ) with vitamins E and C (DHQEC), which was fed to boars at a dose of 0.025% of the basic diet during the whole period of fattening. The concentration of reduced glutathione (GSH) in the blood serum of experimental animals was found to be significantly higher (p<0.1) by 12.5% at the end of the study compared with the control group. There was also a dynamics of oxidized glutathione concentration (GSS) decrease in experimental group animals, as well as a significant increase (p<0.05) of reduced to oxidized glutathione (GSH/GSS) ratio by 45,9%. The concentration of malonic dialdehyde (MDA) was reliably lower (P<0.05) by 33,6% in comparison with the control group, while the level of superoxide dismutase (SOD) activity was 48.2% higher in the period before slaughter (p<0,1) in experimental group. The main effect of feeding DHQEC in mixed fodders was evident in the improvement of average daily live weight gain (ADG), including at the beginning of the experiment, the 1st week (p<0.10), and in the first period of fattening (5-8 weeks, p=0.09; 8 weeks, p<0.05). These indices testify to effective action of antioxidants and promote reactivity of organism and stress resistance, which raises the indices of productivity

Bioactive Feed Additive for the Prevention of Clostridial Disease in High-Yielding Dairy Cattle

The purpose of this research is to develop and test a new approach to prevent clostridial disease in cattle, based on the use of a new compound biologically active feed additive (BFA). Some properties of the separate components of BFA are characterized. The research showed that a strain of the bacterium Bacillus amyloliquefaciens159 has an expressed antagonism to toxin-producing strains of C. perfringens. When using the test strains of C. perfringens from the ATCC collection (13,124 as type A, 10,543 as type C, 12,916 as type F), the anticlostridial activity of the tested strains varied, with size range of 14.0 ± 0.95–15.0 ± 1.28 mm of delayed growth zones. The bactericidal properties of lauric acid and the sorption properties of diatomaceous earth, included in BFA, were confirmed. The experiment was conducted on Holstein cows at the beginning of lactation (control, C (n = 15) vs. experimental E48 (n = 15), E80 (n = 15) and E112 (n = 15), 48, 80 and 112 g/head/day BFA, respectively. All cows were vaccinated with “Coglavax” (vaccine against bovine and sheep clostridial disease, Ceva-Phylaxia VeterinaryBiologicals, Hungary), reinjected two weeks before the experiment. At the end of the experiment (3.5 months after the vaccination and 3 months after the start of BFA feeding according to the scheme of the experiment), the immune response in the control and Group E48 to C. perfringens β-toxin remained at the initial level, while the response in Group E80 and Group E112 became higher under the influence of BFA feeding. Cows fed BFA saw a guaranteed improvement in non-specific resistance. The increase in serum lysozyme concentration in cows of Groups E was 1.01–2.91 mkg/mL vs. control (p p p p p p p = 0.002). Serum TBA–AP/ CP ratio was directly related to TBA–AP (r = 0.87, p p = 0.03 vs. Control). Thus, feeding BFA to dairy cows was found to improve resistance, prevent toxicoses and increase milk production of cattle, which can serve as an additional strategy for bioprotection of cattle against infection