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Objective. Most respiratory infections have similar symptoms, so it is clinically difficult to determine their etiology. This study aimed to show the importance of molecular diagnostics in identifying the etiological agent of respiratory infections, especially during the coronavirus disease 2019 (COVID-19) pandemic. Methods. A total of 849 samples from patients hospitalized at the University Clinical Center Kragujevac (from January 1 to August 1, 2022) were examined using automated multiplex-polymerase chain reaction (PCR) tests. The BioFire-FilmArray-Respiratory Panel 2.1 test was used for 742 nasopharyngeal swabs [identification of 19 viruses (including SARS-CoV-2) and four bacteria], while the BioFire-FilmArray-Pneumonia Panel was used [identification of 18 bacteria and nine viruses] (BioMerieux, Marcy l'Etoile, France) for 107 tracheal aspirates. The tests were performed according to the manufacturer's instructions, and the results were available within an hour. Results. In 582 (78.4%) samples, the BioFire-FilmArray-Respiratory Panel 2.1 plus test identified at least one pathogen. The rhinovirus (20.6%), SARS-CoV-2 (17.7%), influenza A (17.5%), respiratory syncytial virus (12.4%), and parainfluenza 3 (10.1%) were the most common. Other viruses were found less frequently, and Bordetella parapertussis was detected in one sample. In 85 (79.4%) samples, the BioFire-FilmArray-Pneumonia Panel test identified at least one bacterium or virus. The most prevalent bacteria were Staphylococcus aureus (42.4%), Haemophilus influenzae (41.2%), Streptococcus pneumoniae (36.5%), Moraxella catarrhalis (22.3%), and Legionella pneumophila (2.4%). Among viruses, rhinovirus (36.5%), adenovirus (23.5%), influenza A (11.8%), and the genus Coronavirus (4.7%), were detected. Conclusion. Multiplex-PCR tests improved the implementation of therapeutic and epidemiological measures, preventing the spread of the COVID-19 infection and Legionnaires' disease.Copyright © 2022, Serbian Medical Society. All rights reserved.
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Objective: To explore the pathogen composition and distribution characteristics of pathogens in respiratory samples from patients with fever of unknown origin. Methods: A total of 96 respiratory samples of patients with unknown cause fever with respiratory symptoms were collected from four hospitals above grade II in Shijiazhuang area (Hebei Provincial Hospital of Traditional Chinese Medicine, Luancheng District People's Hospital, Luquan District People's Hospital, Shenze County Hospital) from January to April 2020, and multiplex-fluorescent polymerase chain reaction(PCR)was used to detect influenza A virus, influenza B virus, enterovirus, parainfluenza virus I/II/III/IV, respiratory adenovirus, human metapneumovirus, respiratory syncytial virus, human rhinovirus, human bocavirus, COVID-19, Mycoplasma pneumoniae, Chlamydia pneumoniae, Legionella pneumophila, Pseudomonas aeruginosa, Streptococcus pneumoniae, Klebsiella pneumoniae, Group A streptococcus, Haemophilus influenzae, Staphylococcus aureus nucleic acid detection, the results were analyzed for chi-square. Results: A total of 8 pathogens were detected in the upper respiratory tract samples of 96 fever patients, including 1 kind of virus, 6 kinds of bacterias, and Mycoplasma pneumoniae. There were 12 viruses including influenza virus and parainfluenza virus, Legionella pneumophila and Chlamydia pneumoniae were not detected. The pathogen detection rates in descending order were Streptococcus pneumoniae (58/96, 60.42%), Haemophilus influenzae(38/96, 39.58%), Klebsiella pneumoniae (14/96, 14.58%), Staphylococcus aureus (10/96, 10.42%), Mycoplasma pneumoniae (8/96, 8.33%), Pseudomonas aeruginosa (6/96, 6.25%), Group A streptococcus (4/96, 4.17%) and human rhinovirus (2/96, 2.08%). The proportions of single-pathogen infection and multi-pathogen mixed infection in fever clinic patients were similar, 41.67% (40/96) and 45.83% (44/96), respectively, and 12.50% (12/96)of the cases had no pathogens detected. The infection rate of Mycoplasma pneumoniae in female patients with fever (21.43%) was higher than that in male patients with fever (2.94%) (P < 0.05). There was no statistical difference between the distribution of of other pathogens and gender and age(P > 0.05). Conclusions: The upper respiratory tract pathogens were mainly bacterial infections, and occasional human rhinovirus and Mycoplasma pneumonia infections. In clinical diagnosis and treatment, comprehensive consideration should be given to the pathogen detection.
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OBJECTIVE: To investigate the expressions of peripheral blood microRNA-21(miR-21) and transforming growth factor-beta(TNF-beta)/Smad signaling transduction pathway in patients with bronchial asthma complicated with respiratory virus infection. METHODS: Totally 109 patients with asthma complicated with respiratory virus infection(study group) and 104 patients without virus infection(control group) in the Third People's Hospital of Gansu Province between Feb.2019 and Feb.2021 were selected for the cross-sectional study. The basic data of the two groups were collected, and parameters including vital signs, lung function, peripheral blood miR-21 and TGF-beta/Smad signaling pathway proteins were measured. According to the guidelines, the patients of the two groups were divided into acute exacerbation phase and stable phase. The examination results of each group were compared and the levels of peripheral blood miR-21 and TGF-beta/Smad signaling pathway proteins expression of patients with asthma complicated with respiratory virus infection were analyzed. RESULTS: In study group, the proportion of respiratory virus infection among 109 patients was 33.94% for influenza virus, 23.85% for human rhinovirus, 19.27% for respiratory syncytial virus, 10.09% for parainfluenza virus, 6.42% for adenovirus, 4.59% for human coronavirus and 1.83% for human metapneumovirus respectively. The proportion of patients with acute exacerbation phase in the study group was higher than that in the control group, and the levels of peripheral blood miR-21, TGF-beta1, Smad7, pSmad2 and pSmad3 were higher than those in control group(P<0.05). The levels of miR-21, TGF-beta1, Smad2, Smad3, Smad7, pSmad2 and pSmad3 in peripheral blood of patients with acute exacerbation phase of asthma were higher than those of patients with stable phase of asthma(P<0.05). There were no statistical differences in peripheral blood miR-21, TGF-beta1, Smad2, Smad3, Smad7, pSmad2 and pSmad3 levels in asthma patients with different virus infections. CONCLUSION: Early respiratory virus infections might lead to increased expression of peripheral blood miR-21 and increased activation of TGF-beta/Smad signaling pathway in patients with asthma, which played an important role in acute attack of asthma.
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Respiratory viruses have an important history as a threat to global health. However, this problem has been aggravated due to the appearance of new outbreaks caused by a newly discovered virus or variant. Recently, the new coronavirus (SARS-CoV-2) has been a major concern for health authorities, and it was classified as a pandemic by the World Health Organization. Secondary metabolites obtained from plants represent an alternative to the discovery of new active molecules and have already shown potential to combat different viruses. In an effort to demonstrate the broad spectrum of antiviral action from these metabolites, this work describes the compounds that were effective against the major viruses that cause respiratory infections in humans. In addition, their mechanisms of action were highlighted as an approach to better understanding the virus-bioactive substance relationship. Finally, this study warns that, although phytocompounds have a broad antiviral action spectrum, the development of products and clinical trials based on these secondary metabolites is still scarce and therefore deserves greater attention from the scientific community. © 2023 Elsevier B.V.
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Introduction: Following the lifting of generalised restrictions and universal masking, severe acute respiratory syndrome coronavirus 2 (SARS-CoV- 2)- infected patients, especially the clinically extremely vulnerable (CEV) haematology patients, are at an increased risk for other respiratory viral coinfections;therefore, physicians need to be cognizant about excluding other treatable respiratory pathogens. Here, we report coinfection with SARS-CoV- 2 and other respiratory pathogens in patients with haematological cancers presenting to a large tertiary care hospital. Method(s): From July 2022-December 2022, patients with haematological disorders were screened for SARS-CoV- 2 and other 10 common respiratory pathogens by PCR. We performed a retrospective analysis of patients with concurrent respiratory viruses and will prospectively evaluate the same from Jan 2023 to March 2023. Result(s): During this period a total of 322 inpatients had routine screening and additional 6213 swabs were done in the outpatient/ambulatory setting, of which 294 were positive in 221 patients. We excluded all patients who had a single positive PCR swab result and specifically analysed only patients with coinfections. We identified 30 patients (14%) who had respiratory coinfections with 73 viral infections/reactivations over 6 months period, which represented 25% of all positive swabs: 25 inpatients (19 symptomatic/6 asymptomatic) and 48 in outpatients (32 symptomatic/16 asymptomatic). The median age of the cohort was 47.3 years (21-77). Patients were post allograft (n = 15), autograft (n = 7), post CART (n = 5) and postchemotherapy (n = 4). Of the 30 cases, 13 patients had concurrent infections: 5 SARS-CoV2, 10 Respiratory syncytial virus (RSV), 7 Rhino and 4 Influenza A, with all patients having dual viral infection. The remaining 17 patients had multiple viral infections but separated by a median of 54 days (range 27-137 days): 16 SARS-CoV2, 5 RSV, 6 Rhino, 2 Parainfluenza, 2 Adeno and one each of Influenza A, Influenza B, and metapneumovirus. Of the treatable infections (n = 46), 22% were detected on routine asymptomatic swabbing, with 50% of SARS-CoV2 detected on routine swabs. All 8 patients with Influenza were treated with oseltamivir, of 16 RSV cases one was treated with oral ribavirin and of the 22 SARS-CoV2 patients, 5 were treated (4 Paxlovid and 1 Remdesivir). No patients needed intensive care support and no deaths were reported. Conclusion(s): The burden of respiratory coinfections in CEV cohort has a significant impact on respiratory isolation and management, including appropriate & timely initiation of therapy for treatable viral infections. Although mortality was not increased secondary to respiratory coinfections and none needed intensive care, larger prospective cohorts are needed to assess the exact impact.
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Background: SAMD9L is a tumor suppressor involved in regulating the proliferation and maturation of cells, particularly those derived from the bone marrow, and appears to play an important role in cerebellar function. It can be activated in hematopoietic stem cells by type I and type II interferons. It has been hypothesized to act as a critical antiviral gatekeeper regulating interferon dependent demand driven hematopoiesis. Gain of function mutations can present with an immunodeficiency due to transient severe cytopenias during viral infection. Case presentation: We report a 3-year-old boy born full term with a history of severe thrombocytopenia requiring transfusions, developmental delay, ataxia, seizure disorder, and recurrent severe respiratory viral infections. His infectious history was significant for respiratory syncytial virus with shock requiring extracorporeal membrane oxygenation complicated by cerebral infarction and a group A streptococcus empyema, osteomyelitis requiring a left below the knee amputation, and infections with rhinovirus, COVID-19, and parainfluenza requiring hospitalizations for respiratory support. Initial immunologic evaluation was done during his hospitalization for parainfluenza. His full T cell subsets was significant for lymphopenia across all cell lines with CD3 934/microL, CD4 653/microL, CD8 227/microL, CD19 76/microL, and CD1656 61/microL. His mitogen stimulation assay to phytohemagglutinin and pokeweed was normal. Immunoglobulin panel showed a mildly decreased IgM of 25 mg/dL, but normal IgA and IgG. Vaccine titers demonstrated protective titers to 12/22 pneumococcus serotypes, varicella, diphtheria, mumps, rubella, and rubeola. Repeat full T cell subsets 6 weeks later revealed marked improvement in lymphocyte counts with CD3 3083/microL, CD4 2101/microL, CD8 839/microL, CD19 225/microL, and CD1656/microL. A primary immunodeficiency genetic panel was ordered and positive for a heterozygous SAMD9L c.1549T>C (p.Trp517Arg) mutation classified as a variant of unknown significance. Discussion(s): This patient's history of severe viral infections, ataxia, thrombocytopenia, and severe transient lymphopenia during infection is suggestive of a SAM9DL gain of function mutation. Protein modeling done by the laboratory suggests this missense mutation would affect protein structure. The mutation found has been observed in individuals with thrombocytopenia. This case highlights the importance of immunophenotyping both during acute illness and once recovered.Copyright © 2023 Elsevier Inc.
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Respiratory syncytial virus (RSV) infection remains a major public health problem, especially in younger children and the elderly. But several monoclonal antibodies, antivirals and vaccines, either recently launched or in development, offer new hope for RSV prevention and treatment.Copyright © 2023 Wiley Interface Ltd.
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CD4+CD25+FOXP3+regulatory T cells (Tregs) contribute to the maintenance of immune homeostasis and tolerance in the body. The expression levels and functional stability of FOXP3 control the function and plasticity of Tregs. Tregs critically impact infectious diseases, especially by regulating the threshold of immune responses to pathogenic microorganisms. The functional regulatory mechanism and cell-specific surface markers of Tregs in different tissues and inflammatory microenvironments have been investigated in depth, which can provide novel ideas and strategies for immunotherapies targeting infectious diseases.Copyright © 2021. All rights reserved.
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Intro: In the first year of SARS-CoV-2 (CoV-2) pandemic, prevalence of common respiratory viruses, like influenza A/B (Flu A/B) and respiratory syncytial virus (RSV), had a temporary decrease in worldwide circulation, Portugal being no exception. Since this type of viruses share similar routes of transmission with CoV-2, the preventive social measures implemented to avert the spread of the new virus had a significant impact in their transmission as well. With the evolution of pandemic in association with the application of different levels of lockdown restrictions and the reopening of society across several countries, a boost of the circulation of Flu A/B and RVS and/or a change in their seasonal epidemiology can occur and co-infection with CoV-2 may be a possibility. The aim of this work was the evaluation of the Flu A/B and RSV circulation during the last year in COVID-19 samples. Method(s): Between May 2021 and January 2022, about 104 205 human clinical samples for routine CoV-2 diagnostic were tested using Alinity M (Abbott) Resp- 4-Plex assay which simultaneously detected targets from CoV-2, Flu A/ B and RSV. Finding(s): A total of 6627 (6.36%) CoV-2, 483 (0.46%) Flu A, 42(0.04%) Flu B and 2606 (2.50%) RSV positive cases were detected, point out the presence of 75 co-infections: 57 RSV/CoV-2, 17 Flu A/ CoV-2 and 1 Flu B/CoV-2. In accordance with the increase of cases of both viruses, RSV/CoV-2 co-infection occurred mainly between August and December 2021 and Flu A/ CoV-2 between December 2021 and January 2022. It was observed a high RSV season atypically early (August) with only 15.8% of the concomitant cases occurring in children. Conclusion(s): In conclusion, this study reports that co-infection arose between these viruses highlighting the importance of a continuous respiratory pathogen surveillance during pandemics, as well as atypically peaks in atypical periods can emerge when restrictions change.Copyright © 2023
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Acute respiratory viral infections (ARVI) play an important role in morbidity formation among children. At the same time, studies about the ARVI etiological structure are not enough. The article presents the results of structure analyses of ARVI in children with severe and moderate degrees of disease hospitalized in the children's clinical hospital of Novosibirsk for the period 2015-2018. This research aimed to analyze the morbidity of acute respiratory viral infections with the estimation of a causal virus in children admitted to the hospital for the period 2015-2018. Material and methods. In this study, 1137 children aged between 0 and 15 years were examined. In order to determine the etiological factor in children with damage of the upper or lower respiratory tract, by using the method of RT-PCR (AmpliSensARVI-screen-FL test systems (InterLabService, Russia), mucus from the nose and throat was examined for the presence of genetic material of viruses that cause ARVI (influenza A and B viruses, parainfluenza viruses of types 1-4, respiratory syncytial virus, metapneumovirus, four types of human coronavirus, rhinovirus, adenovirus, and bocavirus). Results. The research found that the most frequently detected pathogens are respiratory syncytial virus (23.52%), influenza A and B viruses (19.73%) and rhinovirus (19.21%). Observe the dynamics some fluctuations in the detection of mentioned viral agents and increasing of mixed infections were detected. In addition, the importance of respiratory and gastrointestinal tract combined lesions, particularly for infants and preschool - age children has been noted. Conclusion. The distribution of respiratory viruses in children with severe ARVI who required hospitalization was assessed. It was shown the significance of the respiratory syncytial infection virus, influenza virus and rhinovirus in the etiological structure of hospitalized children of different ages that damage not only the respiratory tract, but also to the gastrointestinal tract. This is an important factor in optimizing the diagnosis, treatment and prevention of viral infections in children.Copyright © Infectious Diseases: News, Opinions, Training 2021.
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Objective. Most respiratory infections have similar symptoms, so it is clinically difficult to determine their etiology. This study aimed to show the importance of molecular diagnostics in identifying the etiological agent of respiratory infections, especially during the coronavirus disease 2019 (COVID-19) pandemic. Methods. A total of 849 samples from patients hospitalized at the University Clinical Center Kragujevac (from January 1 to August 1, 2022) were examined using automated multiplex-polymerase chain reaction (PCR) tests. The BioFire-FilmArray-Respiratory Panel 2.1 test was used for 742 nasopharyngeal swabs [identification of 19 viruses (including SARS-CoV-2) and four bacteria], while the BioFire-FilmArray-Pneumonia Panel was used [identification of 18 bacteria and nine viruses] (BioMerieux, Marcy l'Etoile, France) for 107 tracheal aspirates. The tests were performed according to the manufacturer's instructions, and the results were available within an hour. Results. In 582 (78.4%) samples, the BioFire-FilmArray-Respiratory Panel 2.1 plus test identified at least one pathogen. The rhinovirus (20.6%), SARS-CoV-2 (17.7%), influenza A (17.5%), respiratory syncytial virus (12.4%), and parainfluenza 3 (10.1%) were the most common. Other viruses were found less frequently, and Bordetella parapertussis was detected in one sample. In 85 (79.4%) samples, the BioFire-FilmArray-Pneumonia Panel test identified at least one bacterium or virus. The most prevalent bacteria were Staphylococcus aureus (42.4%), Haemophilus influenzae (41.2%), Streptococcus pneumoniae (36.5%), Moraxella catarrhalis (22.3%), and Legionella pneumophila (2.4%). Among viruses, rhinovirus (36.5%), adenovirus (23.5%), influenza A (11.8%), and the genus Coronavirus (4.7%), were detected. Conclusion. Multiplex-PCR tests improved the implementation of therapeutic and epidemiological measures, preventing the spread of the COVID-19 infection and Legionnaires' disease.Copyright © 2022, Serbian Medical Society. All rights reserved.
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Background: Viral infections pose some of the most serious human health concerns worldwide. The infections caused by several viruses, including coronavirus, hepatitis virus, and human immunodeficiency virus, are difficult to treat. Method(s): This review details the findings of a literature search performed on the antiviral properties of luteolin. The keywords engaged in the search are "virus" along with "luteolin." Results: Luteolin possesses antiviral properties, which is the basis for the current review. It is an important natural flavonoid with numerous important biological properties, including anti-inflammatory, immune regulatory, and antitumor effects, and is found in vegetables, fruits, and several medicinal plants. Recent studies have revealed that many traditional Chinese medicines that contain luteolin inhibit the replication of coronaviruses. Conclusion(s): Luteolin effectively inhibits the replication of coronavirus, influenza virus, enterovirus, rotavirus, herpes virus, and respiratory syncytial virus, among others. In particular, it prevents viral infection by improving the body's nonspecific immunity and antioxidation capacity and inhibiting many pathways related to virus infection and replication, such as MAPK, PI3K-AKT, TLR4/8, NF-kappaB, Nrf-2/hemeoxygenase-1, and others. It also regulates the expression of some receptors and factors, including hepatocyte nuclear factor 4alpha, p53, NLRP3, TNF-alpha, and interleukins, thereby interfering with the replication of viruses in cells. Luteolin also promotes the repair of damaged cells induced by proinflammatory factors by regulating the expression of inflammatory molecules. The overall effect of these processes is the reduction in viral replication and, consequently, the viral load. This review summarizes the antiviral effect of luteolin and the mechanism underlying this property.Copyright © The Author(s) 2023.
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Background: In many countries, non-pharmaceutical interventions to limit severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) transmission resulted in significant reductions in other respiratory viruses. However, similar data from Africa are limited. We explored the extent to which viruses such as influenza and rhinovirus co-circulated with SARS-CoV-2 in The Gambia during the COVID-19 pandemic. Methods: Between April 2020 and March 2022, respiratory viruses were detected using RT-PCR in nasopharyngeal swabs from 1397 participants with influenza-like illness. An assay to detect SARS-CoV-2 and a viral multiplex RT-PCR assay was used as previously described to detect influenza A and B, respiratory syncytial virus (RSV) A and B, parainfluenza viruses 1-4, human metapneumovirus (HMPV), adenovirus, seasonal coronaviruses (229E, OC43, NL63) and human rhinovirus. Result(s): Overall virus positivity was 44.2%, with prevalence higher in children <5 years (80%) compared to children aged 5-17 years (53.1%), adults aged 18-50 (39.5%) and >50 years (39.9%), p<0.0001. After SARS-CoV-2 (18.3%), rhinoviruses (10.5%) and influenza viruses (5.5%) were the most prevalent. SARS-CoV-2 positivity was lower in children <5 (4.3%) and 5-17 years (12.7%) than in adults aged 18-50 (19.3%) and >50 years (24.3%), p<0.0001. In contrast, rhinoviruses were most prevalent in children <5 years (28.7%), followed by children aged 5-17 (15.8%), adults aged 18-50 (8.3%) and >50 years (6.3%), p<0.0001. Four SARS-CoV-2 waves occurred, with 36.1%-52.4% SARS-CoV-2 positivity during peak months. Influenza infections were observed in both 2020 and 2021 during the rainy season as expected (peak positivity 16.4%-23.5%). Peaks of rhinovirus were asynchronous to the months when SARS-CoV-2 and influenza peaked. Conclusion(s): Our data show that many respiratory viruses continued to circulate during the COVID-19 pandemic in The Gambia, including human rhinoviruses, despite the presence of NPIs during the early stages of the pandemic, and influenza peaks during expected months.Copyright: © 2023 Jarju S et al.
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Background: Bacterial and viral airway infections are adverse factors for prognosis in people with cystic fibrosis (CF). The role of viral infections is unclear. Proper microbiological follow-up is essential, and the correlation between upper (UAW) and lower airway (LAW) microbiology may be important for lung disease management. We aim to evaluate airway microbiology in patients in stable clinical condition. Method(s): Between September 2021 and March 2022 in the Florence CF center, 144 nasal lavage-throat swab paired samples were collected from 72 clinically stable people with CF not chronically colonized by Pseudomonas aeruginosa. The study enrolled 59 children (median age 9, range 2-16) and 13 adults (median age 28, range 18-59). LAW specimens (72)were sampled as throat swab and UAWspecimens (72)were randomly collected by nasal lavage with two methods-Mainz (44) or Ryno-set (28). We performed conventional microbiological analyses on all samples. To screen for respiratory viruses, multiplex polymerase chain reaction (BioFire FilmArray RP 2.1 Plus) was performed. Respiratory symptoms and forced expiratory volume in 1 second (FEV1) valueswere evaluated for all patients. Result(s): Twenty-one (29%) patients tested positive for at least one virus in UAW and LAW specimens. The most frequently identified viruses were human rhinovirus or enterovirus (22%) and respiratory syncytial virus (6%). Two (3%) patients tested positive for SARS-CoV-2. Concordance between sampling methods for viral detection in UAW and LAW specimens was observed in 59 paired samples (82%), including 40 patients with no viral infections and 19 virus positive for both samples. Discordance was described in 13 subjects;10 of 13 did not show viral infection in nasal lavage. Twenty-one percent of positive nasal lavage was performed using Ryno-set and 36% using the Mainz approach. The prevalent bacteriumwas Staphylococcu aureus in UAW (53%) and LAW (69%) cultures, followed by Enterobacteriaceae (UAW 8%, LAW 6%), methicillin-resistant S. aureus (UAW 7%, LAW 6%), P. aeruginosa (UAW 4%, LAW 6%), and other clinically relevant gram-negative bacteria such as Achromobacter xylosoxidans, Stenotrophomonas maltophilia, and Ochrobactrum anthropi (UAW 7%, LAW 13%). Nasal lavage performed with Ryno-set tested positive in 72% of patients, and 64% of Mainz lavage were positive. Mainz nasal lavage showed different S. aureus and P. aeruginosa isolations (48% and 5%, respectively) than the samples collected with Ryno-set technique (61% and 4%, respectively). Concordance between sampling methods for bacterial detection in UAW and LAW was the same with the two methods (53%). Bacterial and viral infections were found in UAWand LAWof stable people with CF, but no clinical correlation was observed. Conclusion(s): The two methods of UAW lavage had slight differences in performance. Virus infection appeared to be less prevalent than bacterial infection in UAWand LAW.We did not find correlations between presence of viruses and respiratory symptoms, but further investigation is needed for a better understanding of the clinical role of viral infection in people with CF.Copyright © 2022, European Cystic Fibrosis Society. All rights reserved
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Objective To explore the application value of Biofire Filmarry pneumonia panel (PN) in detection of secondary and concomitant pathogen among critically ill patients with coronavirus disease 2019(COVID-19). Methods We consecutively included and analyzed the clinical data of critically ill patients with COVID-19 transferred to the ICU from February to April 2020 in the Sino-French Campus of Wuhan Tongji Hospital. Samples of Bronchoalveolar lavage fluid obtained by bedside bronchoscopy were sent for Biofire Filmarray PN and standard culture concomitantly. We compared the results of two methods and evaluated their concordance. Results In total, 21 critically ill patients with COVID-19 were included and 54 samples were tested, including 33 (61.1%) Biofire Filmarray PN tests (21 patients) and 21 (38.9%) standard cultures (14 patients), in which 19 pairs (38 samples) underwent both tests simultaneously. In Biofire Filmarray PN group, the turnaround time was about 1 hour. There were 74 positive results in 32 samples (97.0%) from 20 patients, including 29 cases(39.2%) of Acinetobacter baumannii complex, 21 cases (28.4%) of Pseudomonas aeruginosa, 16 cases (21.6%)of Klebsiella pneumoniae, 5 cases (6.8%) of Escherichia coli, 1 case (1.4%)each of Enterobacter cloacae, Haemophilus influenzae, and respiratory syncytial virus. In the standard culture group, the turnaround time was about 3 days. 19 positive results returned in 16 (76.2%) samples from 11 patients, including 8 cases (42.1%) of Pseudomonas aeruginosa, 6 cases (31.6%) of Acinetobacter baumannii, 4 cases (21.1%) of Stenotrophomonas malt and 1 case (5.3%) of Myxobacterium. Among the 19 pairs of "back-to-back" specimens, 15 pairs were concordant, and the agreement ratio was 78.9%. Conclusions Acinetobacter baumannii and Pseudomonas aeruginosa may be the common pathogens of secondary or concomitant infection in critically ill patients with COVID-19. Biofire Filmarray PN is a rapid diagnostic test and has application value in such patients;its sensitivity and accuracy require further investigation with larger sample sizes.Copyright © 2021, Peking Union Medical College Hospital. 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
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Objective. To evaluate the efficacy of therapy for acute respiratory viral infections (ARVIs) in children with antiviral medications: inosine pranobex (Groprinosin, Gedeon Richter) and Kagocel (Kagocel, Niarmedic Pharma LLC) in comparison with symptomatic treatment without etiotropic agents based on clinical and laboratory parameters. Patients and methods. The clinical and laboratory observation was conducted in an outpatient setting in the pre-COVID-19 period between 2018 and 2020. Acute respiratory infections were diagnosed using licensed testing systems by multiplex polymerase chain reaction (PCR) with detection of nucleic acid viral genomes: influenza, rhinovirus, respiratory syncytial virus, metapneumovirus, parainfluenza, seasonal coronaviruses, adenoviruses, and bocavirus). A total of 151 children aged 3 to 15 years were examined and monitored in dynamics, with 78.7% of positive and 21.3% of negative results detected by PCR in the nasopharyngeal and oropharyngeal swabs. The patients were randomized into three groups depending on the antiviral medication prescribed: group 1 (53 children) received Groprinosin;group 2 (52 children) received Kagocel;group 3 (control, 46 children) received only symptomatic therapy without antiviral agents. Results. The study demonstrated a significant positive effect in patients in group 1 treated with Groprinosin (n = 53). At the end of therapy for both mono- and mixed infections, there were 95.8% of negative results (according to PCR diagnosis, that is, the absence of viral genome). In children in group 2 (n = 52) treated with Kagocel, the absence of viral nucleic acids (NAs) was observed less frequently (in 77.3% of cases). In children in group 3 (n = 46) who did not receive etiotropic antiviral therapy, there were only 40.3% of negative results after the end of treatment, and viral NAs were detected in 59.7% of patients. In this case, a 5-day course of Groprinosin was prescribed, after which the PCR results became negative in all patients. Therefore, children with recurrent respiratory infections, mixed infections, and herpesvirus infections require longer therapy. Additionally, a high frequency of ARVI complications was noted in group 3 (5 (10.9%) patients, where otitis was observed in 1 case, sinusitis - in 2 cases, bronchitis - in 2 cases), whereas 1 (1.8%) patient taking Groprinosin had otitis, and 1 (1.9%) patient taking Kagocel had pneumonia. Conclusion. This study was the first to investigate antibody titers to respiratory viruses in dynamics at 3, 6 and 12 months after the onset of ARVI. It showed that the development of antibodies to respiratory viruses is very unstable and does not occur in all patients. Antibodies almost disappeared by the third month after ARVI and were no longer detectable by the sixth month. After 12 months, patients suffered a new ARVI and developed the corresponding antibodies. This information will be especially relevant in conditions of the rise in the incidence of ARVIs, as well as the COVID-19 pandemic observed in recent years.Copyright © 2022, Voprosy Prakticheskoi Pediatrii. All rights reserved.
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The purposes of this review was in the direction of epidemiology, causative agents, symptoms, vaccine research probabilities and COVID-19 infection novel Corona viruses that was investigated in China. The COVID-19 has surrounded viruses along with a practical sensation one stranded RNA genome and a nucleocapsid of helical uniformity. The COVID-19 is an enormous family of viruses that are prevalent in a public and large number of species of animals including hens, camels, bats, cat, and cattle. Human corona viruses can cause gentle disorder identical to a common cough, cold, while others reason more acute disease MERS (Middle East Respiratory Syndrome) and SARS (Severe Acute Respiratory Syndrome). Thus spreading the COVID-19 should be closely investigated to recognize the growth of particularly virulent strains in society at an early stage and to simplify the evolution of enough preventive and therapeutic measurements.Copyright © 2021, Health Biotechnology and Biopharma. All rights reserved.
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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
Introduction: The COVID-19 pandemic has affected the incidence of respiratory viral infections. Our aim was to assess changes in pediatric admissions due to respiratory diseases and associated respiratory viral infections. Method(s): This was a case control study. All children hospitalized with a respiratory disease from Jan. 2015 to Aug. 2021 to the pediatric departments were included. Cases consisted of children admitted between Mar. 2020 to Aug. 2021 (COVID-19 era) and controls between Jan. 2015 to Mar. 2020 (pre COVID-19 era). Diagnosis, length of stay, demographic data, and viral panel results were compared. Result(s): A total of 8774 patients were included, 7157 controls and 1617 cases. There was a significant decrease in respiratory admission rates during the COVID-19 era (17.4% vs 20.9% of all admission, p<0.001). Cases had decreased rates of admissions due to bronchiolitis (4.72% vs 6.3%, p<0.001) and pneumonia (4.87% vs 6.26%, p<0.001) but not asthma (3.84% vs 3.9%), wheezing illness (2.62% vs 2.38%), complicated pneumonia (2.0% vs 2.0%) or stridor (1.79% vs 1.72%). There was a significant decrease in the detection of a respiratory viral pathogen in cases vs controls (44% vs 52%, p<0.001). This was related to a significant decrease in the detection of RSV (27% vs. 37%, p<0.001) and influenza (0.3% vs 5%, p<0.001), but not other respiratory viruses. Conclusion(s): During the COVID-19 pandemic, a decrease in pediatric admissions due to bronchiolitis and pneumonia was observed and associated with a decreased prevalence of RSV and influenza. This may allow us to estimate the significance of preventive measures and vaccination programs for RSV and influenza on respiratory pediatric diseases.