The basis of the pathogenesis of male infertility is the processes of peroxide oxidation of biological substrates, especially lipids and proteins. By destroying the sperm membrane, toxic peroxidation products reduce its motility and ability to fertilize the egg, which is determined by a decrease in the number of motile sperm in the ejaculate. These changes lead to complete or partial male infertility. The authors of the review found that is accompanied by a damaging effect on the structural and functional activity of the gonads and is manifested, in particular, by an imbalance in the hormonal background of the male body. Similar effects are characteristic of an increase in the content of reactive Nitrogen species and its metabolites, which cause nitrosative stress, which is also the cause of male hypofertility and is inseparable from the state of oxidative stress. In scientific work it is determined that the accumulation of harmful peroxidation products leads to damage and destruction of sperm DNA, reduced activity of acrosomal enzymes and mitochondrial potential of sperm, reduced overall antioxidant activity. This makes it impossible for an adequate response of the body. Multi component antioxidant defense system resists stress. It is represented by enzymatic and non-enzymatic links, which can neutralize harmful radicals and peroxidation products. It contributes to the full manifestation of reproductive function. The presence of powerful antioxidant properties of catalase, superoxide dismutase, and enzymes of the thiol-disulfide system, which form the enzymatic system of antioxidant protection, as well as selenium, zinc, copper, other trace elements, retinol, tocopherol, ascorbic acid, and vitamins as parts of the non-enzymatic system is shown. The efficiency of registration is substantiated thin biochemical shift detectors or complex methods, such as total antioxidant status of sperm or sperm plasma, mitochondrial membrane potential, etc along with simple markers of oxidative stress, such as diene conjugates, malonic dialdehyde, and metabolites of the Nitrogen Oxide cycle. Given the leading role of oxidative stress in the development of male hypofertility, the prospect of further research is the search for modern means for correction, especially among substances with pronounced redox activity
Infertility is widespread for all species of animals and causes significant economic losses to livestock due to the loss and shortage of offspring, their reduced viability and, consequently, increased morbidity and mortality. Alimentary-deficiency factors are among the commonest causes of infertility, from which A-vitamin deficiency should be singled out. The precursor of vitamin A in the body is carotene, which is an unstable compound which is easily destroyed even under the influence of moderate factors of influence, in connection with which its deficiency is global, especially at the end of the winter – stall period of keeping animals. Accordingly it is the leading etiological factor of retinol deficiency infertility. As a result, the body has two negatives that act in parallel: carotene / vitamin A deficiency adversely affects the organs, the constituent and major functional unit of which is the secretory epithelial cell, and the free radical oxides formed in high concentration are extremely effective in destroying the cells, weakening antioxidant protection. Vitamin A has a significant effect on the reproductive function of animals both directly and indirectly. It is necessary to ensure the structure and functioning of the epithelial tissues of the organs of regulation and performance of sexual function, and therefore the physiological development of the fetus and the course of pregnancy, parturition and postpartum period, ovo- and spermiogenesis, the manifestation of sexual reflexes. Instead, its deficiency underlies the etiology and pathogenesis of retinol deficiency infertility of animals, causing changes in individual indices of homeostasis and prooxidate-antioxidant system, morphostructure of the reproductive and endocrine organs, hormonal status, sperm quality and reproductive function. The consequence is the emergence and development of gynecological, andrological, mammological and perinatal (ante-, intra-, post- and neo-) pathologies. At the same time, the addition of carotene or retinol to the diets of animals or their oral administration in cases of deficiency of vitamin A prevents impaired reproductive function. The study of the features of the etiopathogenesis of retinol deficiency infertility of animals allows programs of complex diagnostics, therapy and prevention to be developed which provide determination of carotene and vitamin A content and replenishment of the organism in cases of their deficiency.
Different methods for oestrus induction and synchronization in domestic small ruminants have been developed.Seasonality and female's status are important factors for choosing the most appropriate treatment. In the case of females during breeding season, prostaglandins can be used since functional corpus luteum must be present in the ovaries, while during non-breeding season females should be treated with progesterone-based treatments, accompanied by equine chorionic gonadotrophin (eCG), releasing hormones and other compounds. Significant spread of oestrus synchronization during and after the breeding season has been achieved by the use of intravaginal sponges impregnated with synthetic analogues of progesterone. However, the effect of hormonal drugs on the female reproductive system may manifest differently depending on the initial functional state of reproductive organs and the hormonal status, and negative consequences can be observed when drugs are wrongly administered. In addition, insufficient knowledge about the patterns of change in the reactivity of the nervous sexual centers and the corresponding reactions of the body to the administration of hormones reduces their effectiveness, which limits the widespread use. In general, the induction and synchronization of oestrus in small ruminants is an currently important direction of scientific research and an urgent problem of sheep and goat breeding, but the proposed methods require further improvement by reducing the costand increasing biosecurity and predictability of the result.
Modern conditions of practical veterinary medicine require the use of effective and safe drugs. Along with the already known and common medicines, the search for new drugs which are harmless for the body and have the physiological direction of action is still required. In recent years, the attention to the use of phyto- and tissue-derived drugs increased. However, the problem of their use is insufficiently studied – many aspects of their clinical use require further development, expansion of the spectrum of used medicinal plants, study, and implementation into veterinary practice. Therefore, the purpose of this work was to develop a comprehensive vitamin-hormone drugs based on phyto- and tissue medicines for the treatment and prevention of reproductive abnormalities in animals. Based on the information on the etiopathogenesis of disorders of reproductive function indicators: homeostasis, reducing of the concentration of hormones (estrogen or progesterone), changes in the morphofunctional state of endocrine (pituitary, thyroid, and adrenal gland) and reproductive (ovaries) organs, the application of vitamin-hormone drugs in veterinary medicine is scientifically sound. Drugs in terms of pathogenetic therapy can optimise homeostasis, hormone concentrations, stimulate rehabilitation processes in the regulatory organs of reproductive function (pituitary, adrenal, and thyroid) and reproductive organs (ovaries), which, in turn, contributes to the normalisation of follicles which are a prerequisite for the full reproductive capacity of females. Vitamin-hormonal medicines of herbal and tissue origin were developed, with high efficiency for the treatment and prevention of reproductive pathologies of various species of animals, providing the stimulation of reproductive function (estrus signs) for therapy of females with gonadopathies (“Carafest”, “Caplaestrol” and “Caplagonìn”) and males (display of sexual reflexes and sperm quality) for reproductive activity dysfunction (“Carafand”), increase in the viability of the newborn (increasing the number of lambs and goatlings with satisfactory clinical condition with a high-growth potential, reduce in their morbidity and lethality), preventing the incidence of ìntra- and postnatal (labor hypofunction, diseases of post-labor period) pathology (“Carafest”, and “Caplaestrol”)
It has been established that antenatal pathology causes changes in the oxidant/antioxidant balance indices of cows within the range from 24.3% to 41.5%, and in sheep - 17.2-26.2%. In particular, in cows the content of serum catalase decreased by 29.9% and that of superoxide dismutase - by 29.1%, in erythrocytes, catalase - by 35.7%, and reduced glutathione - by 28.0%, and by hemoglobin by 24.3%, the number of red blood cells - by 28.7% and the concentration of 2,3-diphosphoglycerate - by 41.5%. At the same time, the content of malondialdehyde in serum and erythrocytes, on the contrary, increased by 32.4% and 32.5%, respectively, and there was a change in oxidant/antioxidant balance from 1 : 1 to 1 : 3 conventional units. In sheep, the content of serum catalase decreased by 17.2% and that of superoxide dismutase - by 21.6%, in erythrocytes catalase - by 23.9% and in reduced glutathione - by 21.1%, hemoglobin content decreased by 26.2%, the number of erythrocytes - by 24,1% and the concentration of 2,3-diphosphoglycerate - by 21.2%. While the content of malondialdehyde in blood serum and in erythrocytes, on the contrary, increased by 23.7% and 22.3%, respectively, and the change in oxidant/antioxidant balance occurred from 2:1 to 1:3 conventional units.
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