A model of brain ischemia induced by staged ligation of the left and right common carotid arteries has been developed in experiments on rats. The use to this model led to reduction of animal mortality. On days 2-5 after the second ligature, the animals lost weight, the level of their CNS vulnerability increased, the volume of perceived information reduced, adaptation to environmental conditions and reproduction of conditioned reflexes were disordered. Focal and diffuse destructive changes in the nerve and glia cells were found in the cerebral cortex, hippocampus, and thalamic nuclei. The severity of disorders in the blood supply to the brain depended on the interval between ligation of the carotid arteries. This recommends this model for evaluation of the efficiency of drugs of various pharmacological groups.
In 2020 the whole world was faced with an epidemiological outbreak caused by a new coronavirus SARS-CoV-2. The information available to date suggests that the newly isolated SARS-CoV-2 coronavirus should be assigned to superantigens, the main manifestations of which, as it is known, are suppression of nonspecific resistance factors and suppression of innate immunity mechanisms associated with the formation of a systemic inflammatory response in the form of cytokine storm and pathological activation of phagocytes in the lung tissue with its alteration and subsequent fibrosis. In this case, it is quite difficult and sometimes even impossible to observe the formation of fully-fledged specific immune answer on the effect of such antigens. This, along with the high infectious nature of the disease and the associated mortality, requires special attention to the underlying immunopatomechanism(s). Perhaps that is why little information has been obtained regarding the immunogenic properties of the newly isolated SARS-CoV-2 coronavirus so far, as well as, most importantly, about the structures of the virus itself responsible for the formation of specific immunity to it. The latter will serve as the basis for patient management and vaccine development. Nevertheless, a certain point of view on this issue is already beginning to form, as tools for detecting specific antibodies are being actively developed, as well as modern diagnostic tests for coronavirus, which include real-time polymerase chain reaction, real-time reverse transcription polymerase chain reaction and isothermal amplification mediated by reverse transcription. The presented analysis makes it possible to expand the understanding of the issue concerning the immunopathogenesis of COVID-19, the mechanisms of the onset and development of the disease in a living organism, the formation of an immune response to the new coronavirus, and also to determine the therapeutic tactics of managing patients with severe coronavirus infection. Elucidating the mechanisms of the emergence and development of a new coronavirus infection can help scientists, general practitioners, clinicians, and laboratory physicians respond correctly to the COVID-19 pandemic.
Today, there are personal protective equipment, which due to their weight and size characteristics and design features can aggravate professional activity. This is characterized by an increase in the load on several major systems of the employee's body, including the cardiorespiratory system, which can cause the development of occupational pathology. The study of the functions of the cardiorespiratory system of humans in the process of his work is an important task in biomedical tests such as PPE, aggravating their professional activities and future means of individual protection from heavy labor and industrial exoskeletons. The aim of the study is to determine the possibility of using ergospirometry for the physiological assessment of personal protective equipment and industrial exoskeletons. Main part. In medical practice and high-performance sports, ergospirometry is considered the "gold standard" for functional assessment of the cardiorespiratory system. There are very few studies showing the use of ergospirometry for the purpose of physiological assessment of personal protective equipment. Results of research works in which ergospirometry was used in medicine, sports, as well as on the physiological and hygienic assessment of combat equipment, various types of personal protective equipment, including new promising personal protective equipment of the musculoskeletal system-industrial exoskeletons. The use of ergospirometry made it possible to register the main indicators of the human cardiorespiratory system both in field and laboratory conditions and allowed forming an objective conclusion about the dynamics of the degree of stress of the human cardiorespiratory system when using personal protective equipment and industrial exoskeletons with various weight and size characteristics. Thus, the use of ergospirometry both in isolation and in combination with other methods allows us to solve problems related to biomedical testing of personal protective equipment and industrial exoskeletons.
The essence of the preconditioning effect is the activation of urgent defense mechanisms of adaptation as a result of a short episode of weak, non-damaging hypoxic or ischemic exposure, which contributes to an increase in the tolerance of the subsequent delayed, more severe exposure to hypoxia or ischemia. Aim of the study was to assess the literature data on the possibility of using the method of remote ischemic preconditioning (RIP) as a non-pharmacological method for correcting physical performance. Material and methods. In the Scopus, PubMed and eLibrary databases, a selection and analysis of modern literature sources devoted to the issues of increasing human performance, especially by nonpharmacological methods, as well as the use of distant preconditioning to increase physical performance and the mechanisms for implementing this effect, were carried out. Results. Since the discovery of the phenomenon until now, researchers have considered RIP, mainly as a way to protect organs and cells from ischemic damage in clinical practice. The article presents the literature data on the use of RIP as a non-drug method for improving physical performance with single and course use cases. In addition, the article focuses on the mobilization of the body’s own resources through the mechanisms of adaptation to hypoxia developing during RIP. Conclusions. Among the non-pharmacological methods of increasing physical performance, one of the most promising, in our opinion, is RIP that mobilizes the body’s own resources through the mechanisms of adaptation to hypoxia. The advantage of the method based on short-term cessation of blood circulation in the lower extremities and subsequent reperfusion does not apply to the ways prohibited in sports, does not require the use of drugs and the availability of special equipment, signifcant costs of economic and organizational resources.
We studied the effects of 2-(hexyl(methyl)amino)methyl)pyridyl-3-dimethyl carbamate (OPDC), a structural analogue of aminostigmine oxalate, on memory formation in rats with toxic scopolamine-induced amnesia. It was shown that OPDC in non-toxic doses ((1)/215 LD50) has significant anti-amnesic action. Ipidacrine and galantamine in the doses similar to toxic doses ((1)/17 and (1)/6 of LD50, respectively) induced the retention of memory trace. Administration of aminostigmine ((1)/11 of LD50) induced unstable anti-amnesic effect in the model of scopolamine-induced amnesia.
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