Influence of “Thireomagnile” and “Thyrioton” preparations on the antioxidant status of pregnant cows with symptoms of endotoxicosis
The purpose of this search was to investigate the influence of “Thireomagnile” and “Thyrioton” on the antioxidant status of cows in the development of endotoxicosis. The experimental part of the work was performed at the Department of Pharmacology and Toxicology of Stepan Gzhytskyj Lviv National University of Veterinary Medicine and Biotechnologies, in the laboratory of Pharmacology and Toxicology of the State Scientific Research Institute of Veterinary Preparation and Feed Additives (Lviv) and in the Ltd. “Barkom”, village Yampil of Pustomyty district, Lviv region. To solve the tasks of the research, three experimental groups of 10 pregnant cows of the Ukrainian Black-Spotted Dairy breed were formed in each: control and two experimental. Cows of the control group (K) had characteristic clinical signs of endotoxicosis. Animals of the first experimental group (E1) were given 10 mL per animal of “Thyroid magnet” at the eighth and ninth months of gestation. The animals of the second experimental group (E2) were given Thyrioton at a dose of 10 mL per animal in the eighth and ninth months of gestation. As a result of the conducted researches it is found out that in pregnant cows with clinical manifestation of endotoxicosis the inhibition of the activity of the antioxidant protection system and intensification of processes of lipid peroxidation occurs. The use of “Thireomagnile” and “Thyrioton” in cows by the development of endotoxicosis contributed to the increased activity of the antioxidant system, which is indicated by an increase in the activity of glutathione peroxidase, glutathione reductase and glucose-6-phosphate dehydrogenase. The use of of “Thireomagnile” and “Thyrioton” to cows in the development of endotoxicosis contributed to the suppression of lipid peroxidation processes, which is indicated by the low level of primary and final products of lipid peroxidation, namely: lipid hydroperoxides and TBA-active products. Better normalizing action on the equilibrium on the activity of the antioxidant system and the intensity of lipid peroxidation was shown by the introduction of “Thyroid magnet” at a dose of 10 cm3 per animal.
The aim was of this study was to discover the adaptation indicators of different breeds first-calving cows to voluntary (robotic) milking system during the first month of lactation. The research was carried out in a robotic farm on German Holstein, French Holstein breeds and Brown Swiss breed of cows. During the adaptation period, the German Holsteins were differed from the rench Holsteins and Brown Swiss breed by milk yield, multiplicity of milking, and the amount of consumed concentrated feed. On the 30th day (end of adaptation period), the German Holstein breed dominated over the French Holstein breed and Brown Swiss having average daily milk yield by 0.73 and 4.12 kg, milking times by 0.26 and 0.34, the amount of consumed concentrated feed by 0.32 and 0.61 kg higher. In addition, the German Holstein breed during the adaptation period was distinguished by higher multiplicity of passages through the selection gate and the number of visits to feed stations. Important indicators of adaptation to free keeping and voluntary milking are the number of cases of forced milking. On the 5th day of lactation, some 69.4–86.2% of cows of all the groups did not enter the milking robot. This indicator has been steadily declining every five days. On the 30th day of lactation the cases of operator-forced milking were 24.3–35.9% and they were the lowest in cows of the German Holstein breed, indicating the best adaptive qualities of this cattle. The German Holstein breed had more lower (by 0.30 and 0.26 mS/cm) electrical milk conductivity on the 30th day compared with French and Brown Swiss breeds. In addition, the number of somatic cells in its milk was lower by 19.4 and 17.1 thousand cells per cm3 compared with French Holstein and Brown Swiss breed. Therefore, we suggested that the German Holstein breed has more higher stress tolerance, and hence a shorter adaptation time to the keeping.
Chemical composition, energy and biological value of broiler chicken meat caused by various doses of selenium
From the standpoint of modern ideas, the normal functioning of the poultry body and full implementation her of the genetic potential is impossible without the presence of selenium in the diet. The biochemical diversity of selenium puts it in a number of priority trace elements. Scientists who were studying the effects of selenium on poultry body and paid relatively little attention to the quality of the meat. In scientific experiment are studied the effect of additives different doses of selenium in compound feed on the chemical composition, energy and biological value of meat of the cross chickens-broilers COBB 500. Introduction of selenium into the feed for broiler chickens in the doses which are studied (0.3 mg/kg, 0.4 and 0.5 mg/kg) did not significantly affect to the quality of their muscle tissue although it positively affected on some indicators that characterizing its chemical composition, nutritional and biological value. Among the experimental groups, the best meat quality indicators were in the second group of chickens for which was introduced into the feed selenium from the calculation of 0.3 mg/kg. When feeding mixed feeds with selenium additives to broiler chickens it was found that it is likely to increase the concentration of this trace element in muscle tissue by 60.6-100% (P?0.001), which does not exceed the maximum permissible level (MPL). Consumption of selenium-enriched meat of broiler chickens within the limits of the physiological norms recommended in Ukraine will ensure the daily requirement of an adult in this trace element by 23.6-29.4%. This meat product can be especially useful for people who live in regions with low levels of selenium in the natural environment.
The analytical review attempts to summarize the results of numerous scientific research conducted by scientists around the world on selenium scattering and accumulation in natural environment, with considerable attention paid to the concentration of this trace element in soils, natural waters and plants. It is shown that selenium content in agricultural products is caused by the processes of physico-chemical and biogenic migration of this element in the biogeochemical food chain. According to the modern classification of trace elements, which is based on their biological significance for living organisms, selenium belongs to the vital group or biogenic elements. As a biotic element, it has unique physicochemical and biochemical properties and with adequately absorbed into the human body has a positive effect on a number of physiological processes. Various research shows that the majority of the world population (except in some regions) today consumes less selenium with the food than necessary and its consumption decreases every year. Insufficient selenium intake in the human body (less than 15–30 μg/day) leads to the development one of the hypomicroelementosis – hyposelenosis. Selenium deficiency is considered as a possible etiological factor in some cardiovascular, cancer, osteoarticular and neurodegenerative diseases that threaten to human life. Providing the human body with selenium in optimal amounts is one of the important conditions of nutrition. A number of countries have developed recommended selenium intake standards for the adults, which range from 55 to 120 μg/day. We can calculate the physiological need for selenium in children and adolescents by extrapolation. The most safe and effective way to maintain the necessary level of selenium for the human body can be achieved only through the poultry and livestock products by mandatory introduction of premixes containing highly effective biologically available selenium forms into animal feed. This will ensure a relatively high level of trace element in meat, eggs, and milk and would eliminate the cases of toxicosis in human population due to buffer effect of animal tissues.
Scientific studies of foreign and domestic scientists convincingly proved that selenium is a vitally necessary trace element for farm animals and birds with a wide range of biological effects. It performs unique multifunctional functions in the body – structural, catalytic, regulatory, possesses antioxidant, anti-carcinogenic radioprotective, immunostimulant, antiviral, anti-mutagenic, anti-toxic and adaptogenic properties, participates in the formation of mechanisms that determine the reproductive function of animals and birds, affects osteogenesis, participates in the processes of growth and development. In the scientific and economic research the influence of additives of various doses of selenium into mixed fodder on the development of the digestive system in broiler chickens was studied. As a source of selenium, selenite sodium was used. The research was conducted in the production conditions on broiler chickens of the COOB 500 cross. The duration of the experiment corresponded to the period of growing the young for meat and was 42 days. It was established that the use of selenium in the composition of mixed fodder for broiler chickens at doses of 0.3; 0.4 and 0.5 mg/kg positively influenced the development of the digestive system in young, in particular, contributed to an increase in the mass (by 4.1–11.6%) and total length (1.3–3.5%) of the intestine in general, and its thin and thick parts in particular, as well as the mass of the muscular stomach (17.3–23.2%) and liver (3.6–10.0%). The best macromorphological parameters of the digestive system development were chicken broilers, which, during the entire period of growing, mixed fodder, were enriched with selenium at a rate of 0.3 mg/kg. Comparison of the live weight of broiler chickens of experimental groups with indicators of intestinal development, muscular stomach and liver allows us to assume that the digestive systems in them have been developed better and during the growing period they function more actively.
According to many scientists, the list of trace elements that are currently used in compound feeds for various types of poultry is clearly insufficient. In recent years, applied research has been conducted to determine the physiological needs of poultry for certain mineral elements that perform important biochemical functions in the body. This also applies to such biotic ultramicroelement as selenium. Scientific research of domestic and foreign scientists in the field of physiology, biochemistry, medicine and veterinary medicine has proved that selenium is a trace element with a fairly wide range of physiological and biochemical effects. When developing and theoretically justifying optimal norms for introducing selenium into poultry feed, it is necessary to evaluate not only its productive qualities, but also the blood picture. The question of the influence of selenium on changes in blood parameters in the poultry body is a great theoretical and practical significance because it allows us to expand our knowledge of its biological role and explain the data obtained in experiments. In scientific and economic experience has been studied the influence of additives of different doses of selenium in compound feed on the morphological and biochemical parameters of the goslings' blood raised for meat. During the experiment, feeding of goslings of all groups were carried out with dry feed mixes in accordance with existing norms. The goslings of the first control group did not receive selenium supplementation. The poultry of the second experimental group were additionally fed selenium at the rate of 0.2 mg/kg, the third of 0.3 and the fourth of 0.4 mg/kg. It is established that the additive in the feed of different doses of selenium stimulate hemocytopoiesis are added to different compound feeds, this is achieved by a homogeneous tendency per day, within physiological values in the goslings' peripheral blood number of red blood cells (by 1.7–3.9 %), white blood cells (by 2.1–3.2 %) and hemoglobin (by 2.4–8.6 %). Immune defense mechanisms are activated, which is manifested in an increase in the level of total protein (by 1.4–3.8 %) and the concentration of immunoglobulins in the blood serum (by 3.2–9.7 %). It is found changes in the content of total glutathione and its reduced form in the blood indicate a positive effect of selenium on the non-enzymatic element of the antioxidant defense system of the poultry's body. The addition of selenium to compound feed at a dose of 0.3 mg/kg had a significant effect on the morphological and biochemical parameters of the goslings' blood raised for meat.
Today, the number of indicators that control the mineral nutrition of poultry has increased significantly. However, the physiological need of different species of poultry for some mineral elements that perform important biochemical functions in the body has not yet been definitively established. This also applies to such abiotic elements as selenium. The inclusion of selenium in feed for young poultry changes the direction of physiological and biochemical processes in the body and improves metabolism and, consequently, improves their live weight, viability, feed conversion, slaughter, and meat qualities, improve organoleptic characteristics, amino acid composition, nutritional and biological value. In order to deepen and expand modern ideas about the biological role of selenium, its impact on the productive qualities, and the interior performance of young geese in the post-embryonic period of ontogenesis, we have conducted comprehensive research. One of the tasks was to study the causal relationship between the level of consumption of young selenium geese with food and the studied indicators. Experimental studies were performed on Gorky goslings. Feeding of goslings from one day to 75 days of age was carried out with complete rations, balanced on the main nutrients and biologically active substances, in accordance with existing standards. Goslings of the first control group did not receive the addition of selenium in the feed. The birds of the experimental groups (2–4) additionally added different amounts of Selenium to the compound feeds, 0.2 mg/kg, 0.3, and 0.4 mg/kg, respectively. Correlation analysis of the obtained experimental data revealed that there are different levels and directions of the interrelationship between the economically useful and interior features included in the analysis, which may vary depending on the content of selenium in compound feed for young geese. A scheme for modeling the effects of selenium on the body of young geese raised for meat has been proposed.
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