ABSTRACT
Respiratory viral infections are important cause of morbidity and mortality in early life. The relative influence of host and viral factors possibly contribute to the disease pathogenesis. Predisposing conditions like prematurity, Low birth weight and congenital heart diseases etc. have been incriminated in the disease progression. The development of cough, wheezing, and tachypnea, usually peaking on days 4 to 5, go parallel with host cytokine responses and viral load. Various host cytokines, chemokines and molecules involved in the immune response against RSV infection might be responsible for the outcome of the disease process. Nasopharyngeal aspirates (NPAs) from children (n = 349) between 2013-2017 were subjected for IL-17A, IFN-gamma, TNF-alpha, IL-10, IL-6 levels by CBA and MMP-9 and TIMP-1 levels by ELISA. The viral load in RSV positive samples and cytokine levels were correlated with the WHO criteria for acute lower respiratory tract illness (ALRTI). RSV viral load, Pro-inflammatory cytokine (TNF-alpha) levels in severe ALRTI patients were significantly higher than the ALRTI patients [p<0.001]. Whereas Th17 cytokine (IL-17) was found to be significantly higher (p<0.05) in ALRTI patients than severe patients. MMP-9 is secreted in higher levels in severe ALRTI patients (n = 77) in comparison to Acute LRTI patients (n = 35) with an increase of thirty seven fold (p<0.001). Thus, the study highlights the role of TNF -alpha, IL-17 and Th2 cytokine biasness in the pathogenesis of RSV disease with the possible contribution of higher MMP-9/TIMP-1 ratio as a bad prognostic marker towards disease severity. To study the gene expression of autophagy and mTOR signalling pathways in RSV infected children with ALRTI. Nasopharyngeal aspirate (NPA) samples (n = 145) from children suffering from ALRTI were subjected for detection of RSV (Oct 2019 to March 2020). Semi-quantitative gene expression analysis for 5 representative genes each of mTOR signalling and autophagy pathway were performed in respiratory tract epithelial cells using 25 RSV positive cases and 10 healthy controls subjects. Autophagy gene expression analysis revealed significant upregulation in NPC1 and ATG3 autophagy genes. mTOR, AKT1 and TSC1 genes of mTOR pathway were significantly down-regulated in RSV positive patients except RICTOR gene which was significantly upregulated. Thus, survival of RSV within autophagosome might have been facilitated by upregulation of autophagy and downregulation of mTOR signalling genes. To assess the impact of SARS-CoV2 pandemic on RSV, samples were collected from children with ALRTIs admitted to emergency, PICU and indoor admissions during pre-pandemic period (October 2019 to February 2020;n = 166) and during COVID-19 Pandemic (July 2021 to July 2022;n = 189, SARS-CoV2 negative). These NP swabs were analyzed for pdm InfA H1N1, InfA H3N2, Inf B, RSV, hMPV, hBoV, hRV, PIV-2 and PIV-3 by PCR. Higher proportion of children with ALRTIs have had virus/es isolated during pre-pandemic period than during pandemic period (p<0.001). During pre-pandemic period, significantly higher proportion of children had RSV positivity (p<0.001);and significantly lower positivity for hRV (p<0.05), hMPV (p<0.05), and hBoV (p <= 0.005). The occurrence of COVID-19 pandemic has significantly impacted the frequency and pattern of detection of RSV among hospitalized children with LRTIs. RSV Fusion protein plays a critical role in the entry of the virus into the host cell by initiating the fusion of host and viral membranes. It happens to be a target of neutralizing antibodies paving the way as a vaccine candidate. Hence effort was made to introduce point mutation in hRSV fusion protein which can confer stability in its prefusion form. In-silico a stable structure of RSV fusion protein was generated making it a potential vaccine candidate. The timely diagnosis of RSV infection in this population is important for initiating therapy and instituting appropriate infection prevention measures. Serological testing is not widely used for the diagnosis of RSV. C ll Cultures including shell vial culture were used for RSV diagnosis. However, culture approaches lack sensitivity, often quite significantly, compared to nucleic acid amplification assays for the diagnosis of RSV infections. Molecular multiplex assays now offer increased sensitivity for a more accurate diagnosis. However issues with the use of these types of commercial panel assays include the requirement for substantial training, quality systems, and infrastructure to maintain and run these assays and many a times identification of viruses where the true pathogenic potential of those multiple viruses are debatable. Studies are available with laboratory- developed nucleic acid amplification test systems for the detection of RSVA and RSVB in clinical specimens either by PCRbased technologies or RT-LAMP. Gene targets of laboratory-developed molecular assays point towards M gene and the N gene in RSVA and -B with the benefits of flexibility to modify assays when targets are under evolutionary pressure to change, as well as a perceived initial low cost to carry out testing.
ABSTRACT
Background: The pathophysiology of viral-infections is highly complex and involves host immunocompetence, host genetics, and gene-environment interactions. We hypothesized that polymorphic variants in host genes, blood group and previous vaccination status against H1N1 may affect the clinical course of covid-19 infection. Method(s): A total of 202 subjects who were RT-PCR negative after Covid-19 infection were recruited. We investigated association between Covid-19 infection (Severity and recovery period) and multiple factors including ABO and Rh blood groups, H1N1 vaccination, polymorphism in Viral susceptibility genes (ACE2 G8790A), and polymorphism in host response genes (ACE I/D rs4646994, IL6- 174G/C, GSTT1/GSTM1 I/D and GSTP1 Ile 105 Val). Result(s): B-ve and O-ve ABO and Rh blood groups had significantly higher Covid-19 recovery period applied on one-vs.-all in a nonparametric t-test (p<0.05). Subjects who had vaccinated themselves against H1N1 presented with a lower recovery-period (p<0.05). Both variables (blood group and H1N1 vaccination) were not however associated with Covid-19 severity. Out of the studied polymorphisms, ACE2 G8790A and GSTT1/GSTM1 were significantly associated with covid-19 infection. Our results indicated that G/G genotype of ACE2 G8790A (OR 3.52, P 0.007) and GSTT1/ GSTM1 null (M1 - / - OR = 3.98, P = 0.0004;T1 - / - OR 3.84, P = 0.004) and double null (M1 - / - /T1 - / - OR = 9.66, P = 0.001) are likely to be associated with an increased risk for severe-critical outcomes in individuals with COVID-19. Other polymorphisms analyzed in this study were found to have no significant association with Covid-19 outcome. Conclusion(s): This study suggests that outcome of Covid-19 infection is affected by both clinical and genetic factors. Thus it seems plausible to utilize these factors as prediction and susceptibility markers in the prognosis of COVID-19, which may help to personalize the treatment.
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Background: Polymorphonuclear neutrophils (PMNs) recruited to the airway lumen in cystic fibrosis (CF) undergo a rapid transcriptional program, resulting in exocytosis of granules and inhibition of bacterial killing. As a result, chronic infection, feed-forward inflammation, and structural tissue damage occur. Because CF airway PMNs are also highly pinocytic, we hypothesized that we could deliver protein- and ribonucleic acid (RNA)-based therapies to modulate their function to benefit patients. We elected to use extracellular vesicles (EVs) as a delivery vector because they are highly customizable, and airway PMNs have previously been shown by our group to process and use their cargo efficiently [1]. Furthermore, our prior work on CF airway PMNs [2] led to identification of the long noncoding RNA MALAT1, the transcription factor Ehf, and the histone deacetylase/long-chain fatty deacylase HDAC11 as potential targets to modulate CF airway PMN dysfunction. Method(s): H441 human club epithelial cells were chosen for EV production because they efficiently communicate with lung-recruited primary human PMNs [1]. Relevant constructs were cloned into an expression plasmid downstream of a constitutive cytomegalovirus or U6 promoter with an additional puromycin selection cassette. EVs were generated in serumdepleted media and purified by differential centrifugation. Quality and concentration of EVs was determined by electron microscopy and nanoparticle tracking analysis and cargo content by western blot (protein) or qualitative reverse transcription polymerase chain reaction (RNA). Enhanced green fluorescent protein and messenger ribonucleic acid (mRNA) were used as controls. To test delivery to primary human PMNs, generated EVs were applied in the apical fluid of an airway transmigration model [2]. PMN activation was assessed by flow cytometry, and bacterial (PA01 and Staphylococcus aureus 8325-4) killing and viral (influenza Avirus [IAV] H1N1/PR/8/34;SARS-CoV-2/Washington) clearance assays were conducted. Result(s): To package protein, we used EV-loading motifs such as the tetraspanin CD63, Basp1 amino acids 1-9, and the palmitoylation signal of Lyn kinase. To load mRNA, a C'D box motif recognized by the RNA-binding protein L7Ae was included in the 3' untranslated region of the expressed RNA, and CD63-L7Ae was co-expressed. Airway-recruited PMNs treated with EVs containing small interfering RNAs against MALAT1 or HDAC11 showed greater ability to clear bacteria. Conversely, PMNs treated with constructs encasing MALAT1 or HDAC11 efficiently cleared IAV and SARSCoV- 2. PMNs expressing Ehf showed greater clearance of bacteria and viruses. Conclusion(s): Our findings suggest mutually exclusive roles of MALAT-1 and HDAC11 in regulating bacterial and viral clearance by airway-recruited PMNs. Expression of Ehf in airway PMNs may be a pathogen-agnostic approach to enhancing clearance by airway-recruited PMNs. Overall, our study brings proof-of-concept data for therapeutic RNA/protein transfer to airway-recruited PMNs in CF and other lung diseases and for use of EVs as a promising method for cargo delivery to these cells. It is our expectation that, by treating the immune compartment of CF airway disease, pathogentherapies, such as antibiotics will be more effective, and epithelial-targeted therapies, such as CFTR modulators, will have greater penetrance into the cell types of interest.Copyright © 2022, European Cystic Fibrosis Society. All rights reserved
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Objectives: Shotgun proteomics is a generic method enabling detection of multiple viral species in one assay. The reliable and accurate identification of these viral species by analyzing peptides from MS-spectra is a challenging task. The aim of this study was to develop an easy accessible proteome analysis approach for the identification of viruses that cause respiratory and gastrointestinal infections. Method(s): For this purpose, a shotgun proteomics based method and a web application, 'proteome2virus', were developed. Identified peptides were searched in a database comprising proteomic data of 46 viruses known to be infectious to humans. Result(s): The method was successfully tested for cultured viruses and eight fecal samples consisting of ten different viral species from seven different virus families, including SARS-CoV-2. The samples were prepared with two different sample preparation methods and were measured with two different mass spectrometers. Conclusion(s): The results demonstrate that the developed web application is applicable to different MS data sets, generated from two different instruments, and that with this approach a high variety of clinically relevant viral species can be identified. This emphasizes the potential and feasibility for the diagnosis of a wide range of viruses in clinical samples with a single shotgun proteomics analysis.Copyright © 2023
ABSTRACT
Herein, we establish a novel isothermal digital amplification system termed digital nicking and extension chain reaction system-based amplification (dNESBA) by utilizing the isothermal NESBA technique and the newly developed miniaturized fluorescence monitoring system (mFMS). dNESBA enables parallel isothermal NESBA reactions in more than 10,000 localized droplet microreactors and read the fluorescence signals rapidly in 150 s by mFMS. This system could identify the genomic RNA (gRNA) extracted from target respiratory syncytial virus A (RSV A) as low as 10 copies with remarkable specificity. The practical applicability of dNESBA was also successfully verified by reliably detecting the gRNA in the artificial sputum samples with excellent reproducibility and accuracy. Due to the intrinsic advantages of isothermal amplifying technique including the elimination of the requirement of thermocycling device and the enhanced portability of the miniaturized read-out equipment, the dNESBA technique equipped with mFMS could serve as a promising platform system to achieve point-of-care (POC) digital molecular diagnostics, enabling absolute and ultra-sensitive quantification of various infectious pathogens even in an early stage.Copyright © 2023
ABSTRACT
The approval of mRNA vaccine technique against COVID-19 opens a door to research and the creation of new drugs against different infectious pathologies or even cancer, since for several diseases the therapeutic options are limited, and different viral diseases are treated only symptomatically. For these reasons, this study proposed a hypothesis supported by biological studies, that it provides a theoretical basis for the possible development of a drug that used the mRNA technique and the ribonucleolytic action of a ribonuclease for a possible antiviral therapy, and analyzed a future perspective of this technique in order to provide a bibliographic basis on this hypothesis and motivate researchers to carry out biological studies on this topic.Copyright © 2022, Health Biotechnology and Biopharma. All rights reserved.
ABSTRACT
Kanpur, India, recently witnessed an outbreak of undifferentiated febrile illness among medical students. Several students developed high-grade fever with altered sensorium within 2-3 days after the index case. Surprisingly, this outbreak coincided with the death of several pigs in the vicinity. Acute necrotising encephalitis, although rare, was noted in some patients. When correlated with each other, all of these incidents were suggestive of an outbreak of H1N1.
Subject(s)
Brain Diseases , Influenza A Virus, H1N1 Subtype , Influenza, Human , Students, Medical , Humans , Animals , Swine , Influenza, Human/epidemiology , Brain Diseases/epidemiology , Disease Outbreaks , India/epidemiology , Fever/epidemiologyABSTRACT
Background: The current United Nations sustainable development goal 3 sets to reduce maternal mortality to less than 70 per 100 000 live births by 2030. To monitor whether India is on track to attaining sustainable development goals, it is essential to routinely assess trends of health indicators. Objective(s): This study was conducted to assess trends of maternal mortality and cause-specific maternal death in tertiary care hospitals in Southern India. Method(s): This is a retrospective study of hospital records and death summaries of all maternal deaths between January 1, 2009, and December 31, 2018, at the tertiary care hospital in Southern India. The demographic, clinical, and delivery details of all the maternal deaths were collected. Causes of maternal deaths were classified as direct, indirect, and nonspecific. To observe trends of maternal death, the maternal mortality ratio was calculated for each year, and Pearson's chi-square test was used. Result(s): Maternal mortality ratio was 555/100000 and had a decreasing trend from its highest in 2010 of 1230/100000 to its lowest of 229/100000 in 2017 (t = 7.71 p = 0.02). The majority of women who died were aged 21-35 years, resided in rural, were primigravidae, and had operative delivery. Most of the maternal deaths had been referred to our facility (90.8%) from other healthcare units. Obstetric hemorrhage (27.8%) and puerperal sepsis (37.7%) among direct causes;H1N1 pneumonia (34.8%) among indirect causes were the major causes of maternal death. The number of maternal deaths due to sepsis increased from the beginning until the end of the study from 10% to 50% (t = 5.9, p = 0.01). On the contrary, there was a decline in maternal deaths due to obstetric hemorrhage from 50% to 25% (t = 4.2, p = 0.03). Conclusion(s): Although the maternal mortality ratio has reduced over the years, sepsis was an important cause of maternal deaths.Copyright © 2023 Bentham Science Publishers.
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Introduction: The SARS-CoV-2 made the world stop its activities, and the only chance of returning to normal life is the vaccine. But like any vaccination, some complications have been reported. We report the case of a patient who presented a myositis following the administration of the Covishield* (AZD1222, ChAdOx1 nCoV-19, AstraZeneca) COVID-19 vaccine. Case Report: 12 hours after his first dose, an 84-year-old patient presented to us reporting a decrea-sed muscle strength: the patient can move against gravity but not against resistance. The biological assessment showed that CK was at 4,250 IU/L, myoglobin was at 144 microgram/L and aldolases at 16.9 U/L. The patient received high doses of corticosteroids. Discussion(s): The development of vaccines and immunization programs reduced the morbidity and mortality of several diseases. Other case reports suggested the possible association between myopathies and the administration of the hepatitis B vaccine and H1N1 plus the seasonal trivalent influenza and other vaccines. The exact mechanism is still unknown, but a presumable autoimmune phe-nomenon is incriminated. Conclusion(s): The main purpose of this case report is to raise awareness about the possible link between the COVID-19 vaccination and polymyositis and the urge to take charge to avoid further complications.Copyright © 2023 Bentham Science Publishers.
ABSTRACT
Influenza and coronavirus infections are especially dangerous due to being capable of causing pandemics and clinical complications in the nervous and cardiovascular systems, as well as exacerbation of chronic diseases (diabetes mellitus, heart failure, chronic obstructive bronchopneumonia, etc.), which can cause delayed death, especially in children under two years of age, the elderly, and individuals with poor health. The aim of the study was to search for compounds effective against these two topical viruses which possess constant epidemic activity - influenza virus and betacoronavirus - among new adamantane derivatives containing a NO-donor fragment or a dopamine residue. Another purpose of the study was determination of cytotoxicity and antiviral activity of compounds on cell lines permissive for influenza virus and betacoronavirus. The antiviral activity of 6 adamantane derivatives against strains of the influenza virus (H1N1) and betacoronavirus was studied. It was established that the NO-donor derivative of aminoadamantane succinate and the dopamine derivative of adamantanebenzoic acid had the greatest ability to suppress the development of the influenza virus with a chemotherapeutic index above 60. No promising compounds against betacoronavirus were identified.Copyright © Team of Authors, 2022.
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Objective To investigate drug resistance gene in Mycoplasma pneumoniae (MP) and the distribution of 13 respiratory pathogens in bronchoalveolar lavage fluid(BALF) of children with Mycoplasma pneumoniae pneumonia(MPP). Methods A total of 100 BALF of children with MPP in Peking University Third Hospital and Peking University First Hospital from January 2018 to January 2019 were collected. Fluorogenic quantitative PCR was used to detect nucleic acid and it's drug resistance gene of MP and multiple PCR method was adopted to detect influenza A virus, influenza A virus - H1 N1, influenza A virus - H3 N2, influenza B, human parainfluenza virus, adenovirus, human bocavirus, human rhino virus, Chlamydia pneumoniae, human metapneumovirus, MP, human corona virus, and respiratory syncytial virus gene, and the results were compared by using Chi square test. Results In 100 BALF samples, MP and drug resistance gene were detected by fluorogenic quantitative PCR. Totally, 83 cases (83. 00%) were MP positive and 78 cases (93. 98%) were drug resistant. All of them had the point mutations A2063G in V region of 23S rRNA domain. A total of 13 kinds of respiratory pathogens were detected by multiplex PCR method, and 89 cases (89. 00%) were positive. Totally, 79 cases (79. 00%) were MP positive, of which 74 cases (74. 00%) detected only MP, and 5 cases (5. 00%) detected MP combined with other pathogens. Other pathogens were detected in 10 cases (10. 00%). The virus detection rate of 0-4 years old group was higher than that of > 4-6 years old group (P - 0. 042) and > 6 years old group (P =0. 002), and the differences were statistically significant. Conclusions MP can be detected in most BALF samples of MPP children, the drug resistance phenomenon is serious, and the main point mutation is A2063G. There were other respiratory pathogens and 2 or 3 pathogens were detected in a small number of BALF samples.Copyright © 2022 Authors. All rights reserved.
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Introduction. The continuing circulation of influenza A (H1N1)pdm2009 virus poses a threat of a new epidemic rise. It is known that influenza A (H1N1)pdm2009 is characterized by a severe course, development of life-threatening complications, and high mortality, which is associated not only with the biological features of the pathogen, but also with the induction of deep immunosuppression, especially the interferon system and the cellular-type immune response. The role of influenza in the development of severe forms of the new coronavirus infection COVID-19 has been revealed. The increase of the number of virus strains resistant to various classes of antiviral drugs is of unfavorable importance. This requires the development of new approaches to the treatment of influenza A (H1N1)pdm2009 with the combined use of drugs with complex antiviral and immunocorrective activity. Purpose. To substantiate the combination therapy of influenza A (H1N1)pdm2009 in children using oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon). Materials and methods. Clinical and laboratory examination of 85 children aged from 3 to 5 years with moderate (43) and severe forms (42) of influenza A (H1N1)pdm2009 was carried out. Results and discussion. In patients with severe forms of A(H1N1)pdm2009 influenza, a higher frequency of anamnestic risk groups (85.7%), frequent development of febrile fever (100%), severe intoxication symptoms (100%), symptoms of laryngitis (28.6%), tracheitis (57.1%), bronchitis (76.2%), dyspeptic (42.9%) and cerebral syndromes (62.9%), other complications (80.9%) were revealed. In these patients, more significant changes of the indicators of the cellular type of the immune response were found - the decrease of CD3, CD4, CD8, the humoral type of immune response - the increase of CD20, IgM, circulating immune complexes, the decrease of IgA and IgG, innate immunity factors - the decrease of the metabolic activity of neutrophils, moderate increase of CD16. The combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (tamiflu) compared with oseltamivir (tamiflu) monotherapy reduced the duration of fever (Me 2, IQI 1-4 days and Me 3, IQI 2-4 days), intoxication (Me 3, IQI 2-4.5 days and Me 4.5, IQI 3-7 days), symptoms of rhinitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), pharyngitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), tracheitis (Me 2, IQI 1-3 days and Me 3.5, IQI 2-4 days), bronchitis (Me 3, IQI 2-5 days and Me 5, IQI 4-6 days). In this group, the complications developed less frequently (4.5% and 33.3%);there was the decrease of hospitalization time (Me 5, IQI 4-7 days and Me 6.5, IQI 5-7 days). There was the increase of the number of children, who (after 10 days from the start of therapy) had sanitation of the nasopharynx from the virus (90.9% and 61.9%). Conclusion. The high frequency of anamnestic risk groups and the induction of deep immunosuppression, especially the cellular component of immunity, are the cause of the formation of severe forms of influenza A (H1N1)pdm2009. This justified the appointment of combination therapy using the neuraminidase inhibitor oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon), which not only inhibits virus replication, but also has immunocorrective activity against the interferon system and cellular immunity. The high efficiency of the combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (Tamiflu) lets to recommend the inclusion of these drugs in the treatment of severe forms of influenza A(H1N1)pdm2009 in children.Copyright © 2020, Professionalnye Izdaniya. All rights reserved.
ABSTRACT
Introduction. The continuing circulation of influenza A (H1N1)pdm2009 virus poses a threat of a new epidemic rise. It is known that influenza A (H1N1)pdm2009 is characterized by a severe course, development of life-threatening complications, and high mortality, which is associated not only with the biological features of the pathogen, but also with the induction of deep immunosuppression, especially the interferon system and the cellular-type immune response. The role of influenza in the development of severe forms of the new coronavirus infection COVID-19 has been revealed. The increase of the number of virus strains resistant to various classes of antiviral drugs is of unfavorable importance. This requires the development of new approaches to the treatment of influenza A (H1N1)pdm2009 with the combined use of drugs with complex antiviral and immunocorrective activity. Purpose. To substantiate the combination therapy of influenza A (H1N1)pdm2009 in children using oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon). Materials and methods. Clinical and laboratory examination of 85 children aged from 3 to 5 years with moderate (43) and severe forms (42) of influenza A (H1N1)pdm2009 was carried out. Results and discussion. In patients with severe forms of A(H1N1)pdm2009 influenza, a higher frequency of anamnestic risk groups (85.7%), frequent development of febrile fever (100%), severe intoxication symptoms (100%), symptoms of laryngitis (28.6%), tracheitis (57.1%), bronchitis (76.2%), dyspeptic (42.9%) and cerebral syndromes (62.9%), other complications (80.9%) were revealed. In these patients, more significant changes of the indicators of the cellular type of the immune response were found - the decrease of CD3, CD4, CD8, the humoral type of immune response - the increase of CD20, IgM, circulating immune complexes, the decrease of IgA and IgG, innate immunity factors - the decrease of the metabolic activity of neutrophils, moderate increase of CD16. The combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (tamiflu) compared with oseltamivir (tamiflu) monotherapy reduced the duration of fever (Me 2, IQI 1-4 days and Me 3, IQI 2-4 days), intoxication (Me 3, IQI 2-4.5 days and Me 4.5, IQI 3-7 days), symptoms of rhinitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), pharyngitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), tracheitis (Me 2, IQI 1-3 days and Me 3.5, IQI 2-4 days), bronchitis (Me 3, IQI 2-5 days and Me 5, IQI 4-6 days). In this group, the complications developed less frequently (4.5% and 33.3%);there was the decrease of hospitalization time (Me 5, IQI 4-7 days and Me 6.5, IQI 5-7 days). There was the increase of the number of children, who (after 10 days from the start of therapy) had sanitation of the nasopharynx from the virus (90.9% and 61.9%). Conclusion. The high frequency of anamnestic risk groups and the induction of deep immunosuppression, especially the cellular component of immunity, are the cause of the formation of severe forms of influenza A (H1N1)pdm2009. This justified the appointment of combination therapy using the neuraminidase inhibitor oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon), which not only inhibits virus replication, but also has immunocorrective activity against the interferon system and cellular immunity. The high efficiency of the combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (Tamiflu) lets to recommend the inclusion of these drugs in the treatment of severe forms of influenza A(H1N1)pdm2009 in children.Copyright © 2020, Professionalnye Izdaniya. All rights reserved.
ABSTRACT
Coronavirus disease 2019 (COVID-19), first reported in Wuhan, China, has rapidly spread worldwide. Traditional Chinese medicine (TCM) has been used to prevent and treat viral epidemics and plagues for over 2,500 years. In the guidelines on fighting against COVID-19, the National Health Commission of the People's Republic of China has recommended certain TCM formulas, namely Jinhua Qinggan granule (JHQGG), Lianhua Qingwen granule (LHQWG), Qingfei Paidu decoction (QFPDD), Xuanfei Baidu granule (XFBD), Xuebijing injection (XBJ), and Huashi Baidu granule (HSBD) for treating COVID-19 infected individuals. Among these six TCM formulas, JHQGG and LHQWG effectively treated mild/moderate and severe COVID-19 infections. XFBD therapy is recommended for mild COVID-19 infections, while XBJ and HSBD effectively treat severe COVID-19 infections. The internationalization of TCM faces many challenges due to the absence of a clinical efficacy evaluation system, insufficient research evidence, and a lack of customer trust across the globe. Therefore, evidence-based research is crucial in battling this infectious disease. This review summarizes SARS-CoV-2 pathogenesis and the history of TCM used to treat various viral epidemics, with a focus on six TCM formulas. Based on the evidence, we also discuss the composition of various TCM formulas, their underlying therapeutic mechanisms, and their role in curing COVID-19 infections. In addition, we evaluated the roles of six TCM formulas in the treatment and prevention of other influenza diseases, such as influenza A (H1N1), severe acute respiratory syndrome (SARS), and Middle East respiratory syndrome (MERS). Furthermore, we highlighted the efficacy and side effects of single prescriptions used in TCM formulas.Copyright © 2021
ABSTRACT
It has long been recognized that pathogens, such as viruses, parasites, and other microorganisms, emerge and change over time. Viruses are powerful infectious agents that have co-evolved with humans and are responsible for several serious illnesses in people. There is no herd immunity for most humans, making emerging viruses, particularly the RNA viruses, more dangerous. The high mistake rate of the polymerases that copy the RNA viruses' genomes gives them the ability to adapt to the quickly changing local and global environments. Through mutation (as in the case of Dengue viruses), reassortment (as in the case of influenza viruses), and recombination, they can evolve at a rapid rate (polioviruses). The influenza A viruses (such as H1N1 and H5N1), which have caused numerous outbreaks, epidemics, and pandemics around the world, are the finest example of viruses emerging and reemerging. The complex host-pathogen ecology and the co-evolution of microbes with their hosts are linked to the emergence and reemergence of novel diseases. Human viral illness emergence and reemergence is an ongoing problem that affects a nation's social and economic growth.
ABSTRACT
Influenza and coronavirus infections are especially dangerous due to being capable of causing pandemics and clinical complications in the nervous and cardiovascular systems, as well as exacerbation of chronic diseases (diabetes mellitus, heart failure, chronic obstructive bronchopneumonia, etc.), which can cause delayed death, especially in children under two years of age, the elderly, and individuals with poor health. The aim of the study was to search for compounds effective against these two topical viruses which possess constant epidemic activity - influenza virus and betacoronavirus - among new adamantane derivatives containing a NO-donor fragment or a dopamine residue. Another purpose of the study was determination of cytotoxicity and antiviral activity of compounds on cell lines permissive for influenza virus and betacoronavirus. The antiviral activity of 6 adamantane derivatives against strains of the influenza virus (H1N1) and betacoronavirus was studied. It was established that the NO-donor derivative of aminoadamantane succinate and the dopamine derivative of adamantanebenzoic acid had the greatest ability to suppress the development of the influenza virus with a chemotherapeutic index above 60. No promising compounds against betacoronavirus were identified.