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The only currently available live vaccine against yellow fever (YF) based on chicken embryos infected with an attenuated 17D strain of the YF virus is one of the most effective vaccine preparations. However, the live vaccine is associated with "viscerotropic syndrome" (approximately 0.4 cases per 100 000 vaccinated). Therefore, the development and introduction of highly purified inactivated vaccine against YF is intended to ensure the maximum safety of vaccination against one of the most common human viral diseases.Goals and objectives. Development and evaluation of immunogenicity of the cultural inactivated vaccine against YF at the laboratory model level.

Adaptation of 17D strain of YF virus to Vero cell culture, cultivation, removal of cellular DNA, inactivation with β-propiolactone, concentration, chromatographic purification, determination of protein and antigen of YF virus, assessment of immunogenicity in mice in parallel with commercial live vaccine.

Immunogenicity the determination of specific antibodies of class G (IgG) and virus neutralizing antibodies in the sera of immunized mice showed high level of antibodies exceeding that of immunized with commercial live vaccine. The optimal dose of antigen in the vaccine (total protein) was 50 μg/ml (5 μg/0.1 ml -dose and volume per 1 vaccination of mice). Thus, the laboratory version of cultural inactivated vaccine against YF is as effective (and even superior) as the commercial live vaccine.

Laboratory version of cultural inactivated vaccine against YF, which is not inferior in immunogenicity (in animal model) to commercial live vaccine, has been developed.

Laboratory version of cultural inactivated vaccine against YF, which is not inferior in immunogenicity (in animal model) to commercial live vaccine, has been developed.The purpose of the study is to analyze patterns demonstrated by the COVID-19 epidemic process in a megacity during the increase, stabilization and reduction in the incidence, and to evaluate the effectiveness of the epidemic prevention measures.

The comprehensive study incorporating epidemiological, molecular genetic and statistical research methods was conducted to analyze the spread of SARS-CoV-2 in Moscow during the COVID- 19pandemic.

It was found that the exponential growth in COVID-19 cases was prevented due to themost stringent control and restrictive measures deployed in Moscow to break the chains of SARS-CoV-2 transmission and due to people who were very disciplined in complying with the self-isolation rules. The analysis ofthe dynamics in detection of new COVID-19 cases showed that in a megacity, the impact of social distancing andself-isolation would become apparent only after 3.5 incubation periods, where the maximum length of the periodis 14 days. It was discovered that the detection frequency of SARS-CoV-2 RNA in relatively healthy populationand its dynamics are important monitoring parameters, especially during the increase and stabilization in theCOVID-19 incidence, and are instrumental in predicting the development of the epidemic situation within a rangeof 1-2 incubation periods (14-28 days). In Moscow, the case fatality rate was 1.73% over the observation period(6/3/2020-23/6/2020).

The epidemiological analysis of the COVID-19 situation in Moscow showed certain patterns of theSARS-CoV-2 spread and helped evaluate the effectiveness of the epidemic prevention measures aimed at breaking the routes of transmission of the pathogen.

The epidemiological analysis of the COVID-19 situation in Moscow showed certain patterns of the SARS-CoV-2 spread and helped evaluate the effectiveness of the epidemic prevention measures aimed at breaking the routes of transmission of the pathogen.The Epstein-Barr virus (EBV), one of the most common in the human population, is capable of lifelong persistence in resting memory B-cells, in T-cells in case of type 2 EBV, and in some undifferentiated epithelial cells. In most people, EBV persistence is not accompanied by significant symptoms, but frequent virus activations are associated with the increased risks of severe diseases, such as chronic active Epstein-Barr virus infection, hemophagocytic lymphohistiocytosis, multiple sclerosis, systemic lupus erythematosus, gastric and nasopharyngeal carcinomas, and a variety of T- and B-cell lymphomas. Therefore, the molecular viral and host cell processes during asymptomatic or low-symptom EBV persistence are of great interest. This review describes the behavior of the viral DNA in an infected cell and the forms of its existence (linear, circular episome, chromosomally integrated forms), as well as methods of EBV genome copying. Two closely related cycles of viral reproduction are considered. Lytic activation is unfavorable for the survival of a particular viral genome in the cell, and may be a result of differentiation of a latently infected cell, or the arrival of stress signals due to adverse extracellular conditions. The EBV has a large number of adaptive mechanisms for limiting lytic reactivation and reducing hostility of host immune cells. Understanding the molecular aspects of EBV persistence will help in the future develop more effective targeted drugs for the treatment of both viral infection and associated diseases.Influenza is a worldwide public health problem. Annually, this infection affects up to 15% of the world population; and about half a million people die from this disease every year. Moreover, influenza A and B viruses tend to garner most of the attention, as these types are a major cause of the epidemics and pandemics. Although the influenza virus primarily affects the respiratory tract, it may also affect the cardiovascular and central nervous systems. Several antiviral drugs, that target various stages of viral reproduction, have been considered effective for the treatment and prevention of influenza, but some virus strains become resistant to these medications. Thus, new strategies and techniques should be developed to overcome the antiviral drug resistance. Recent studies suggest that new drugs based on RNA interference (RNAi) appear to be a promising therapeutic approach that regulates the activity of viral or cellular genes. As it is known, the RNAi is a eukaryotic gene regulatory mechanism that can be triggered by a foreign double-stranded RNA (dsRNA) and results in the cleavage of the target messenger RNA (mRNA). This review discusses the prospects, advantages, and disadvantages of using RNAi in carrying out a specific treatment for influenza infection. However, some viruses confer resistance to small interfering RNAs (siRNA) targeting viral genes. This problem can significantly reduce the effectiveness of RNAi. Therefore, applying siRNAs targeting host cell factors required for influenza virus reproduction can be a way to overcome the antiviral drug resistance..This review article considers the possibilities of combined antiviral therapy in the treatment of patients with COVID-19, based on the analysis of the mechanism of action of known antiviral drugs in the framework of the medical hypothesis. find more The potential effectiveness of the joint use of viral RNA polymerase inhibitors and a fusion inhibitor in this pathology is discussed. The review discusses the main representatives of these groups of drugs - ribavirin, riamilovir, umifenovir, favipiravir. The efficacy and safety profile of these drugs was analyzed, including the experience of their use in clinical trials conducted during the COVID-19 pandemic, as well as earlier work performed during the SARS and MERS epidemics.It has now been established that blood vessels are target for influenza, but the mechanism by which the influenza virus affects the cardiovascular system is unknown. The aim - adaptation of influenza virus A/St. Petersburg/48/16 H1N1(pdm09) to mature Wistar rats, as these animals are the main experimental model for studying the pathology of the cardiovascular system.

Passage of influenza A virus (IAV) in embryonated chicken eggs, intranasal inoculation of rats with virus-containing material s, production of pulmonary homogenate, determination of IAV titer in embryonated chicken eggs, detection of histological changes in lung and pulmonary vessels.

The article presents the results of the adaptation of influenza virus A/St. Petersburg/48/16 H1N1(pdm09) to mature Wistar rats. The infectious titer of the virus in the homogenates of infected rats lungs at the last stage of adaptation was 7.0 lg EID50/ml. Histological studies revealed pronounced changes in the respiratory tract (spasm of bronchioles, submucosal edema, desquamation of ciliated epithelium of bronchioles) and pulmonary vessels (spasm, desquamation and swelling of endotheliocytes, dissociation and swelling of the elastic membrane and media). In order to identify IAV in blood vessels and lung tissues, an immunohistochemical study was performed using monoclonal antibodies to NP antigen of IAV.

The data obtained allow us to conclude that the strain of influenza virus A/St. Petersburg/48/16 H1N1(pdm09) was adapted to mature Wistar rats maintaining virulent properties. The infectious titer of the virus at the last stage of adaptation was 7.0 lg EID50/ml. IAV identification is confirmed by immunohistochemical examination.

The data obtained allow us to conclude that the strain of influenza virus A/St. Petersburg/48/16 H1N1(pdm09) was adapted to mature Wistar rats maintaining virulent properties. The infectious titer of the virus at the last stage of adaptation was 7.0 lg EID50/ml. IAV identification is confirmed by immunohistochemical examination.

Influenza is a severe viral disease, a frequent complication of which is a secondary bacterial pneumonia. Influenza vaccines prevent secondary bacterial complications. Virus-like particles are one of the promising areas for the development of new vaccines. The aim of this work is to study the correlation of the pathomorphological characteristics of the lungs with clinical, virological, and microbiological markers of the disease at vaccination with virus-like particles (VLPs), containing hemagglutinin (HA) of influenza virus (HA-Gag-VLPs) in a murine model of secondary bacterial pneumonia induced by S. pneumoniae after influenza infection.

BALB/c mice were vaccinated with VLPs containing influenza HA. After 21 days, mice were infected with two strains of influenza viruses, homologous and non-homologous, and 5 days after viral infection, were infected with S. pneumoniae. The vaccination effect was evaluated by morphological, virological (titer of the virus in the lungs) and microbiological (titer of bacterindary bacterial pneumonia, induced by S. pneumoniae, after influenza infection with homologous strain of the virus.Currently, along with the increasing need of medical organizations for blood preparations, algorithms for laboratory testing of blood donors are not available for all infections with hemo-contact mechanism of transmission. A representative example is infection caused by parvovirus В19.

The article presents the results of the original study, the purpose of which was to study the prevalence of antibodies to parvovirus B19 and the activity of the circulation of this virus in socially important categories of the population.

The materials of the study were blood samples from blood donors of Saint Petersburg, as well as parvovirus В19 sequences isolated from DNA-positive plasma samples.

According to the results of the laboratory examination, a high proportion of carriers of virus-specific IgG antibodies was found in studied group of donors, which confirms the previous infection of parvovirus B19 in them and illustrates the high prevalence of infection in this socially significant group. Based on the results of the blood preparations testing, the presence of parvovirus DNA В19 in a significant number of samples was determined by polymerase chain reaction method.