[The second stage of rehabilitation of post-infectious myelopathy after a new coronavirus infection]. / Vtoroi etap reabilitatsii postinfektsionnoi mielopatii posle perenesennoi novoi koronavirusnoi infektsii.

After suffering a new coronavirus infection (COVID-19), patients develop damage to various organs and systems, including the central nervous system. One of the rare and little-described complications is spinal cord injury. PURPOSE OF THE STUDY: Description of a clinical case of post-infectious myelopathy in a young patient after a new coronavirus infection. MATERIAL AND METHODS: Patient L., 28 years old, was admitted for rehabilitation treatment at the Regional Medical and Rehabilitation Center with a diagnosis of post-infectious myelopathy, acute period, lower central paraplegia. The patient underwent a comprehensive clinical and instrumental monitoring, including an assessment of the anamnesis, complaints, physical condition, and neurological status. The dynamics of the patient's condition was assessed using the rehabilitation routing scale, as well as the Rivermead mobility index, functional categories of walking, the Hauser walking index, the Berg balance scale, and the Frenchay hand test. RESULTS: After completion of the rehabilitation course, the patient showed positive dynamics in the form of an increase in exercise tolerance up to 40 minutes; increase in strength and volume of active movements in the lower extremities. Positive dynamics was revealed on all scales assessed. CONCLUSION: Due to the fact that the number of complications of COVID-19 is growing, it is necessary to inform doctors about the possibility of such a complication as myelopathy in order to timely diagnosis and effective treatment, which will reduce the incidence associated with spinal cord dysfunction.

Gas transport characteristics of hemocorrectors and perfusates based on perfluorocarbon blood-substituting emulsions

This review summarizes the data regarding the gas transport characteristics of hemocorrection and perfusates on the basis of low concentrated drugs nano-sized perfluorocarbonic 20% Per-ftoran (a blood substitute, it is allowed for clinical use in Russia), 20% Ftoremulsion III (an improved blood substitute, registered in Russia), 10-20% Perfusol (a perfusion solution for perfusion of the isolated heart), 20% Ftorem (a cardioplegic emulsion for sur-geries on the stopped heart) used in the biomedical field. The com-pensation of blood loss using traditional plasma substitutes with-out the gas transport function or with low gas transport characteristics leads to a decrease in the oxygen capacity of the resulting mixture and subsequently to deterioration in the oxygen transport characteristics of blood. The synthetic gas-transport blood substitutes can be used in the treatment of various forms of ischemia, such as carbon monoxide poisoning. Furthermore, recent results regarding the mechanism of COVID19 infection indicate a possible use of the synthetic gas-transport blood substitutes in the treatment and therapy of COVID19 infected patients. © 2020, University of Kragujevac, Faculty of Science. All rights reserved.

Fundamental basis of covid-19 pathogenesis

At the end of 2019, a new coronavirus infection occurred in the People's Republic of China with an epicentre in the city of Wu-han. On February 11th, 2020, the World Health Organization as-signed the official name of the infection caused by the new coro-navirus – COVID-19. COVID-19 has affected people from all over the world given that the infection was noted in 200 countries resulting in annunciation of the pandemic situation. Human co-rona viruses cause mild to moderate respiratory infections. At the end of 2002, a new coronavirus appeared (SARS-CoV), the causal agent of atypical pneumonia, which caused acute respiratory distress syndrome (ARDS). The initial stage of COVID-19 infection is the penetration of SARS-CoV-2 into target cells that have angi-otensin converting enzyme type II receptors. The virus enters the body through the respiratory tract and interacts primarily with toll-like receptors (TLRs). The events in SARS-Cov-2 induced infection follow the next scenario: epithelial cells via TLRs recog-nize and identify SARS-Cov-2, and after that the information is transmitted to the transcriptional NF-κB, which causes expression of the corresponding genes. Activated in this way, the epithelial cells begin to synthesize various biologically active molecules. The results obtained on preclinical material indicate that ROS generation increases and the antioxidant protection decreases, which plays a major role in the pathogenesis of SARS-CoV, as well as in the progression and severity of this respiratory disease. © 2020, University of Kragujevac, Faculty of Science. All rights reserved.