Respiratory Syncytial Research Articles

Characterizing human respiratory syncytial virus among children admitted with acute respiratory tract infections from 2019 to 2022.

Respiratory syncytial virus is a major causative agent of lower respiratory tract infection in children, especially infants with substantial morbidity and mortality implications. The virus undergoes continuous evolution documented by accumulation of mutations in the glycoprotein gene necessitating vigilant surveillance to provide essential data to epidemiologists and researchers involved in development of vaccines. This study was aimed to perform molecular characterization of respiratory syncytial virus (RSV) among children ≤ 5 years admitted in hospital. In the current study we observed RSV-A (2019 (n = 95) and 2021 (n = 61) seasons) and RSV-B (2022 season (n = 68)). Phylogenetic analysis revealed all RSV-A strains (n = 47) to be GA.2.3.5 and RSV-B (n = 22) were classified as GB.5.0.5a. Selection pressure analysis identified one positive (P274L/V) and one negative site (P230T) in RSV-A, while in RSV-B there was only one negatively selected site (S295). This study spanning over three seasons contributes to RSV evolutionary dynamics in India emphasizing the importance of on-going surveillance to inform effective public health strategies and vaccine development efforts.

Analysis of Pathogen Detection Data in 898 Pediatric Patients Hospitalized with Community-Acquired Pneumonia

Introduction: The prevalence of community-acquired pneumonia (CAP) in pediatric patients has seen significant changes following the lifting of COVID-19 restrictions. This study examines the epidemiology and pathogen detection in children hospitalized with CAP at Beijing New Century Children's Hospital throughout 2023. Objective: To analyze the pathogen detection rates and distribution characteristics among 898 pediatric CAP patients admitted during 2023, focusing on age-related and seasonal variations. Methods: This retrospective study included 898 pediatric patients diagnosed with CAP between January 1 and December 31, 2023. Respiratory pathogen detection was performed using a combination of antigen detection kits, nucleic acid testing, and bacterial culture. The data were analyzed for pathogen distribution across different age groups and seasons. Results: Of the 898 CAP cases, pathogens were detected in 703 cases (78.3%). Mycoplasma pneumoniae was the most frequently identified pathogen (44.1%), with detection rates increasing significantly with age, particularly in school-aged children. Viral pathogens were detected in 42.7% of cases, with Respiratory Syncytial Virus (32.4%) being the most prevalent. Bacterial pathogens were identified in 49.5% of cases, with Streptococcus pneumoniae (34.1%) and Haemophilus influenzae (33.0%) being the most common. Mixed infections were observed in 64.4% of cases, with a higher prevalence in older children and during the autumn and winter seasons. Conclusions: The study highlights significant age and seasonal variations in pathogen distribution among pediatric CAP patients. Mycoplasma pneumoniae was more common in older children and during autumn, while bacterial infections peaked in winter. The findings emphasize the need for age and season-specific strategies in managing pediatric CAP and suggest that comprehensive diagnostic approaches are crucial to accurately identify the causative pathogens.

Respiratory syncytial virus infection among children younger than 2 years admitted to a paediatric intensive care unit with extended severe acute respiratory infection in ten Gavi-eligible countries: the RSV GOLD—ICU Network study

Patient-level data on life-threatening respiratory syncytial virus (RSV) infection in children in low-income and lower-middle-income countries (LMICs) are scarce, and this scarcity might limit demand for RSV interventions in LMICs who rely on support from Gavi, the Vaccine Alliance. We aimed to describe the characteristics of RSV-positive children younger than 2 years who were admitted to paediatric intensive care units (PICUs) with extended severe acute respiratory infection (eSARI) in Gavi-eligible countries. The RSV GOLD-ICU Network study is a 2-year prospective, multicountry, observational study of children younger than 2 years admitted to a PICU with eSARI. The study was conducted at 12 referral hospitals in Bolivia, Cameroon, The Gambia, Ghana, Haiti, Mozambique, Nepal, Nigeria, Sudan, and Tanzania. For comparison with a high-income country, patients were also included from two referral hospitals in the Netherlands. Children were eligible for inclusion if they were aged between 4 days and 2 years, admitted to a PICU, and met the WHO eSARI definition. RSV infection was confirmed within 72 h of PICU admission via a molecular point-of-care test at LMIC study sites and via a PCR test at the Dutch study sites. Clinical data were extracted from admission charts of patients; underlying conditions that were identified at admission were classified as comorbidities. Socioeconomic and demographic data were collected via a written, structured, parental questionnaire. Between April 28, 2021, and Sept 30, 2023, we included 2118 children who were admitted to a PICU with eSARI in the ten participating countries. 614 (29·0%; range 23·0-38·2) of 2118 children tested positive for RSV and 608 were included in descriptive analyses as six medical files were lost at one study site and data could not be retrieved. Among all 608 children infected with RSV, 379 (62%) were male and 229 (38%) were female. Median age at testing was 3·0 months (IQR 1·3-7·7). 30 (5%) of 608 children died from RSV infection. RSV fatality occurred at seven of ten participating LMIC study sites and was highest in Tanzania (seven [27%] of 26 children). Median age at testing of children who died with RSV infection was 1·8 months (IQR 1·1-4·2). To our knowledge, this is the first prospective, multicountry study reporting data from children admitted to a PICU with life-threatening RSV infection in Gavi-eligible countries. As there is no access to intensive care for most children in LMICs, RSV prevention is urgently needed. Bill & Melinda Gates Foundation. For the Arabic, Portuguese, Hausa and Nepali translations of the abstract see Supplementary Materials section.

Maternal Vaccination for the Prevention of Infantile RSV Disease: An Overview of the Authorized, In-Progress, and Rejected Vaccine Candidates.

Respiratory Syncytial Virus (RSV) continues to pose a significant challenge, contributing to elevated hospitalization rates among children up to 5 years old, with a disproportionate burden on newborns and infants under 6 months old. The unique characteristics of the young immune system make it prone to altered responses to infections and vaccinations, requiring a tailored approach to disease prevention. The recent approval of the maternal RSV vaccine (brand name ABRYSVO) represents a pivotal advancement in preventive strategies among newborns and infants, marking a milestone in RSV research as the first market-approved maternal vaccine. The present review examines clinical trial data on both recent and previous vaccine candidates, as well as the licensed vaccine, focusing on the prevention of RSV disease in newborns and young infants through the passive acquisition of antibodies following maternal immunization. Additionally, it evaluates the safety profile of these vaccines.

Increased risk of bacterial pneumonia before and after respiratory syncytial virus infection in young children.

The burden of respiratory disease is great among children. This study aimed to examine the temporal relationship between hospitalisation for respiratory syncytial virus (RSV) and bacterial pneumonia. A Swedish population-based cohort was created by combining data from the Swedish Medical Birth Register, the National Inpatient Register, the Cause of Death Register, the Total Population Register, and the Longitudinal Integration Database for Health Insurance and Labour Market Studies. Children born between 1998 and 2015 were included and followed for 2 years. We examined the temporal relationship between RSV hospitalisation and bacterial pneumonia using piecewise exponential models. The final cohort comprised 1 641 747 children, 48.5% were females. There were 23 632 RSV and 4722 bacterial pneumonia hospitalisations, with mean age of 137.8 and 424.2 days, respectively. RSV hospitalisation was associated with bacterial pneumonia with an adjusted incidence rate ratio (aIRR) of 3.18. The risk was highest in the first month after RSV hospitalisation, aIRR 11.19. The risk of bacterial pneumonia was elevated for 4 months after RSV hospitalisation and before RSV hospitalisation. We found an increased risk for bacterial pneumonia hospitalisation in children hospitalised for RSV both before and after RSV hospitalisation, indicating a bidirectional relationship.

Next - generation sequencing whole genome respiratory syncytial virus in North Viet Nam, 2017 – 2020

Human Respiratory Syncytial Virus (RSV) infections pose a significant risk to both children and adults worldwide. 95% of children have been affected by RSV at least one time before 2 years old. This study aims to develop and apply a high-throughput sequencing strategy to sequence Vietnamese RSV whole genomes directly from clinical specimens in North Vietnam, 2017 - 2020. 38 clinical RSV-A and 43 clinical RSV-B samples were used to extract RNA, then converted to cDNA and PCR with specific primer sets. Next-generation sequencer with Illumina platform and analysis data by CLC Genomics Workbench. In silico analysis and laboratory testing revealed that the primer sets worked well and successfully amplified the whole genome of RSV. The nucleotide positions of gene start and gene end, as well as the substitutions in amino acid in each gene were determined. This protocol is simple to set up, easily scalable in sample preparation, and suitable for analysis. This reseach is the first public method of whole genome RSV sequencing and the most updated data of molecular RSV genome after 2015 in Viet Nam.

Effect of nirsevimab on hospitalisations for respiratory syncytial virus bronchiolitis in France, 2023–24: a modelling study

Respiratory syncytial virus (RSV) is a major cause of hospitalisations and deaths among infants worldwide. France was one of the first countries to implement a national programme (beginning on Sept 15, 2023) for administration of nirsevimab, a single-dose long-acting monoclonal antibody treatment, to infants born on or after Feb 6, 2023, to prevent lower respiratory tract infection caused by RSV. We aimed to estimate the effectiveness of nirsevimab and the number of hospitalisations averted in children younger than 24 months in real-world settings. In this modelling study, we developed an age-structured deterministic model characterising RSV transmission as well as plausible scenarios for the administration of nirsevimab doses based on maternity ward and community pharmacy supply data. We retrospectively estimated nirsevimab effectiveness in infants younger than 24 months during the 2023-24 RSV season in France (excluding overseas territories) and the number of averted hospitalisations for RSV bronchiolitis occurring after emergency department visits, by calibrating the model to hospital and virological surveillance data from Aug 21, 2017, to Feb 4, 2024, alongside serological data from a previous cross-sectional study. To assess the robustness of our estimates, we conducted sensitivity analyses in which we modified our assumptions about the number of doses administered, the reconstruction of the number of RSV-associated hospitalisations for bronchiolitis, the duration of maternal and post-infection immunity to RSV, and the number of contacts in children aged 0-2 months. We estimated that nirsevimab administration prevented 5800 (95% credible interval 3700-7800) RSV-associated hospitalisations for bronchiolitis after emergency department visits among children younger than 24 months, including 4200 (2900-5600) hospitalisations among those aged 0-2 months, between Sept 15, 2023 (the date nirsevimab was introduced), and Feb 4, 2024-a 23% (16-30) reduction in the total number of hospitalisations and a 35% (25-44) reduction in the 0-2 months age group, compared with the scenario without administration. In our baseline scenario, in which we estimated that 215 000 doses of nirsevimab were administered by Jan 31, 2024, the estimated effectiveness against RSV-associated hospitalisations for bronchiolitis was 73% (61-84), corresponding to one hospitalisation averted for every 39 (26-54) doses administered. In sensitivity analyses, nirsevimab remained effective against RSV-associated hospitalisations for bronchiolitis after emergency department attendance. Our findings show that nirsevimab administration campaigns could effectively reduce the RSV-related hospital burden of bronchiolitis in children younger than 24 months. European Commission, Laboratoire d'Excellence Integrative Biology of Emerging Infectious Diseases programme, and INCEPTION project.

Real-world effectiveness of nirsevimab immunisation against bronchiolitis in infants: a case–control study in Paris, France

Respiratory syncytial virus (RSV) is the most common cause of bronchiolitis in infants. Nirsevimab, an RSV-neutralising monoclonal antibody, was approved for use in the EU in 2022, and a national immunisation campaign began in France in September, 2023. We aimed to assess the effectiveness of nirsevimab in reducing paediatric emergency department visits (and subsequent hospitalisations) for all-cause bronchiolitis and RSV-associated bronchiolitis. In this case-control study in a paediatric emergency department in Paris, France, we included all infants aged 12 months or younger who attended the department between Oct 14, 2023, and Feb 29, 2024, and whose nirsevimab status was known. Infants were classed as cases if they had all-cause bronchiolitis; all other infants were classed as controls. The primary outcome was the effectiveness of nirsevimab against paediatric emergency department visits for all-cause bronchiolitis during the 2023-24 RSV season. Secondary outcomes were paediatric emergency department visits for RSV-associated bronchiolitis; hospitalisations for all-cause bronchiolitis, RSV-associated bronchiolitis, and severe RSV-associated bronchiolitis requiring supplemental oxygen or feeding by nasogastric tube; and severe RSV-associated bronchiolitis requiring admission to the paediatric intensive care unit. Effectiveness estimates were adjusted for age, week of paediatric emergency department visit, and sex. Our study included 2786 infants, 864 with all-cause bronchiolitis (cases) and 1922 without bronchiolitis (controls). 178 (21%) of the 864 cases had received nirsevimab, and 305 (35%) cases were hospitalised for all-cause bronchiolitis. 200 (72%) of the 277 cases tested for RSV were positive, of whom 22 (11%) had received nirsevimab. 701 (36%) of 1922 infants in the control group had received nirsevimab. The effectiveness of nirsevimab against paediatric emergency department visits for all-cause bronchiolitis was 47% (95% CI 33-58). Nirsevimab effectiveness was 83% (71-90) against paediatric emergency department visits for RSV-associated bronchiolitis, 59% (42-71) against hospitalisations for all-cause bronchiolitis, 83% (72-90) against hospitalisations for RSV-associated bronchiolitis (91% [78-96] against those necessitating supplement oxygen and 88% [74-95] against those necessitating feeding via a nasogastric tube). Nirsevimab did not significantly reduce admissions to the paediatric intensive care unit (67% [95% CI -100 to 95]). During the first French national immunisation campaign, a single dose of nirsevimab effectively reduced paediatric emergency department visits (both all-cause visits and visits related to RSV-associated bronchiolitis) and subsequent hospitalisations. None.

Paid Family Leave and Prevention of Acute Respiratory Infections in Young Infants

Acute respiratory tract infections are the leading cause of emergency department visits and hospitalizations in US children, with highest risks in the first 2 months after birth. Out-of-home childcare settings increase the spread of respiratory tract infections. The study team hypothesized that access to state-paid family leave could reduce acute care encounters (hospital admissions or emergency department visits) for respiratory tract infections in young infants by reducing out-of-home childcare transmissions. To determine if the 2018 introduction of paid family leave in New York state reduced acute care encounters for respiratory tract infections in infants 8 weeks or younger. This population-based study of acute care encounters took place in New York state and New England control states (Maine, Massachusetts, New Hampshire, Vermont) from October 2015 through February 2020. Participants included infants aged 8 weeks or younger. Controlled time series analysis using Poisson regression was used to estimate the impact of paid family leave on acute care encounters for respiratory tract infections, comparing observed counts during respiratory virus season (October through March) with those predicted in the absence of the policy. Acute care encounters for respiratory tract infections in 1-year-olds (who would not be expected to benefit as directly from the policy) were modeled as a placebo test. New York State Paid Family Leave policy, introduced on January 1, 2018, providing 8 weeks of paid leave for eligible parents. Emergency department visits or hospitalizations with International Statistical Classification of Diseases and Related Health Problems, Tenth Revision (ICD) codes for upper or lower respiratory tract infections or associated symptoms (ie, fever, cough), excluding newborn hospitalizations. The secondary outcome was acute care encounters for respiratory syncytial virus (RSV) bronchiolitis. There were 52 943 acute care encounters for respiratory infection among infants 8 weeks or younger. There were 15 932 encounters that were hospitalizations (30%) and 33 304 of the encounters were paid for by Medicaid (63%). Encounters were 18% lower than predicted (relative percentage change = -17.9; 95% CI, -20.3 to -15.7) after the introduction of paid family leave. RSV encounters were 27.0% lower (95% CI, -30.9 to -23.5) than predicted. Similar reductions were not observed in 1-year-olds (relative percentage change = -1.5; 95% CI, -2.5 to -0.6). New York state's paid family leave policy was associated with reduced acute care encounters for respiratory tract infections in young infants. These findings may be useful for informing implementation of paid family leave federally and in the states that have not enacted paid family leave policies.

Long-Term SARS-CoV-2 Findings Related to Persisting Viral Antigen and Inflammation Resemble Those Reported for Influenza Virus and Respiratory Syncytial Virus.

Recent studies have documented prolonged expression of viral antigens and RNA and associated inflammation after infection with SARS-CoV-2 in a substantial proportion of infected patients. The persisting SARS-CoV-2 effects and findings, with inflammation associated with continued detection of viral antigens, especially resemble those previously reported for influenza virus, as well as respiratory syncytial virus (RSV). The reports indicate the need for improved insight into the mechanisms whereby post-SARS-CoV-2 infection-related illness is apparently more common and perhaps even more persistent after infection than observed for other respiratory viruses.

Clinical Impact of Community-Acquired Respiratory Viruses in Patients With Solid Organ Transplants

Community-acquired respiratory viruses (CARVs) are associated with poor outcome in solid organ transplant recipients. We reviewed some of these outcomes such as respiratory support, length of stay, admission to the intensive care unit, steroid use, and 30-day all-cause mortality. Multihospital, single center, retrospective review of electronic health records from January 1, 2014, to December 31, 2019. Twenty-three solid organ transplant recipients (20 male and 3 female) who tested positive for CARVs were identified. The mean age at admission was 60 years, average length of stay was 8 days with 2 patients needing >2 weeks. Six patients required intensive care unit and 8 required supplemental oxygen support. CARV distribution was rhinovirus in 48%, parainfluenza in 29%, metapneumovirus in 12%, respiratory syncytial virus in 0.03%, adenovirus in 0.03%, and non-novel coronavirus in 0.06%. All patients were immunosuppressed, intravenous immunoglobulins were used in 3 patients, antivirals in 7 patients (ribavirin in 6 and oseltamivir in 1), and steroids in 10 patients. Twelve patients had transplant organ biopsy with 5 showing acute cellular rejection. Thirty-five percent of patients died within 1 year (2 during the same admission). Transplant recipients are at a high risk of infections, especially CARVs, which may increase morbidity and mortality. In our observational study, we assessed patients with solid organ transplants who were admitted and tested positive for CARVs, and the associated impact on their clinical course. Careful analysis of the results will help us to emphasize the importance of timely diagnosis and treatment in specific populations.

Respiratory Viral Infections from 2015 to 2022 in the HIVE Cohort of American Households: Incidence, illness characteristics, and seasonality.

Viral respiratory illnesses are the most common acute illnesses experienced and generally follow a predicted pattern over time. The SARS-CoV-2 pandemic interrupted that pattern. The HIVE (Household Influenza Vaccine Evaluation) study was established in 2010 to follow a cohort of Southeast Michigan households over time. Initially focused on influenza, surveillance was expanded to include other major respiratory pathogens, and, starting in 2015, the population was followed year-round. Symptoms of acute illness were reported, and respiratory specimens were collected and tested to identify viral infections. Based on the known population being followed, virus-specific incidence was calculated. From 2015 to 2022, 1755 participants were followed in HIVE for 7785 person-years with 7833 illnesses documented. Before the pandemic, rhinovirus (RV) and common cold human coronaviruses (HCoVs) were the viruses most frequently identified, and incidence decreased with increasing age. Type A influenza was next but with comparable incidence by age. Parainfluenza and respiratory syncytial viruses were less frequent overall, followed by human metapneumoviruses. Incidence was highest in young children, but infections were frequently documented in all age groups. Seasonality followed patterns established decades ago. The SARS-CoV-2 pandemic disrupted these patterns, except for RV and, to a lesser extent, HCoVs. In the first two years of the pandemic, RV incidence far exceeded that of SARS-CoV-2. Longitudinal cohort studies are important in comparing the incidence, seasonality, and characteristics of different respiratory viral infections. Studies documented the differential effect of the pandemic on the incidence of respiratory viruses in addition to SARS-CoV-2.

Star-shaped flexible arm multivalent aptamers for largely improved virus binding affinity

Here we explore the click chemistry-based synthesis of high affinity multivalent aptamers and their application for virus detection. In contrast to attempts based on rigid constructs, such as aptamer-modified nanoparticles or hybridization-connected constructs, we propose highly flexible “star-shaped” multivalent aptamers to facilitate the cooperative binding to randomly distributed viral proteins on the surface of pleomorphic viruses such as the respiratory syncytial virus (RSV). Polyethylene glycols (PEGs) with 4 azide terminated flexible arms spanning from a pentaerythritol core were conjugated to aptamer strands with dibenzocyclooctyne and a fluorescent label at their, 3’ and 5’ terminus, respectively. By controlling the aptamer - PEG ratio and following electrophoretic separation all the different valency aptamer conjugates could be prepared. For proof of concept, we used an aptamer selected for the G protein of RSV. We show that significantly higher apparent affinities can be obtained by using multivalent aptamers for both the G protein and RSV virus than with the single stranded aptamer, i.e. with up to ca. 2 orders of magnitude. The inherent convenience of synthesizing fluorescently labelled multivalent aptamers leads to a versatile class of affinity ligands for sensing as demonstrated through the improved detection sensitivity of tetravalent aptamer tagged RSV by fluorescence nanoparticle tracking analysis.

Epidemiological trends in respiratory pathogens infections among children post-COVID-19: A cross-sectional study

ObjectiveThe aim of this study was to investigate the epidemiological trend of respiratory pathogens infections among children after the Coronavirus Disease 2019 (COVID-19) pandemic. MethodsThis study enrolled 575,373 children who came to our hospital for relevant respiratory pathogen antigen/antibody testing due to respiratory symptoms such as fever and cough. The demographic and laboratory data, including age, gender, testing time, and influenza A virus (IAV), influenza B virus (IBV), respiratory syncytial virus (RSV), adenovirus (ADV), and Mycoplasma pneumonia (MP) results, were collected from electronic medical records. SPSS (version 21.0) and GraphPad Prism 9 software were used for statistical analysis and figure creation. Results79,746 children tested positive for IAV IgM, and 3196 children tested positive for IBV IgM, with an overall positive rate of 28.5 % for IAV and 1.1 % for IBV. IAV infections peaked at 21,502 cases in March 2023. 80,699 children underwent RSV IgM testing from April to October 2023, with 5726 (7.1 %) testing positive. The apex of RSV infections occurred in May 2023, with 2140 cases. Regarding ADV, 100,460 children underwent testing from April to October 2023, with 1981 (11.9 %) testing positive. The pinnacle of ADV infections reached 4546 cases in November 2023. Concerning MP, 474,913 children underwent MP testing, with 73,833 (15.5 %) testing positive. The zenith of MP infections occurred in November 2023, with 25,291 cases. Further analysis revealed that the outbreaks of these pathogens are occurring earlier than in previous years. Additionally, our data showed that children aged >3 years accounted for 79.6 %, 87.8 %, 88.6 %, and 77.8 % of the total IAV‐positive, IBV‐positive, ADV-positive, and MP-positive children, respectively. Conversely, RSV primarily infected children <6 years. ConclusionVarious respiratory pathogens showed an epidemic trend in children among children post-COVID-19. These results indicated that we should pay timely attention to the epidemiological trends and characteristics of respiratory pathogens in children after the COVID-19 pandemic and provide relevant information for society and clinical practice.

RSV and rhinovirus increase pneumococcal carriage acquisition and density, whereas nasal inflammation is associated with bacterial shedding

Epidemiological studies report the impact of co-infection with pneumococcus and respiratory viruses upon disease rates and outcomes, but their effect on pneumococcal carriage acquisition and bacterial load is scarcely described. Here, we assess this by combining natural viral infection with controlled human pneumococcal infection in 581 healthy adults screened for upper respiratory tract viral infection before intranasal pneumococcal challenge. Across all adults, respiratory syncytial virus (RSV) and rhinovirus asymptomatic infection confer a substantial increase in secondary infection with pneumococcus. RSV also has a major impact on pneumococcal density up to 9days post challenge. We also study rates and kinetics of bacterial shedding through the nose and oral route in a subset. High levels of pneumococcal colonization density and nasal inflammation are strongly correlated with increased odds of nasal shedding as opposed to cough shedding. Protection against respiratory viral infections and control of pneumococcal density may contribute to preventing pneumococcal disease and reducing bacterial spread.

Severe Pneumonia in PICU Admissions: The Pediatric Acute and Critical Care Medicine Asian Network (PACCMAN) Observational Cohort Study, 2020-2022.

Mortality from pneumonia is three times higher in Asia compared with industrialized countries. We aimed to determine the epidemiology, microbiology, and outcome of severe pneumonia in PICUs across the Pediatric Acute and Critical Care Medicine Asian Network (PACCMAN). Prospective multicenter observational study from June 2020 to September 2022. Fifteen PICUs in PACCMAN. All children younger than 18 years old diagnosed with pneumonia and admitted to the PICU. None. Clinical, microbiologic, and outcome data were recorded. The primary outcome was PICU mortality. Univariate and multivariable logistic regression was performed to investigate associations between PICU mortality and explanatory risk factors on presentation to the PICU. Among patients screened, 846 of 11,778 PICU patients (7.2%) with a median age of 1.2 years (interquartile range, 0.4-3.7 yr) had pneumonia. Respiratory syncytial virus was detected in 111 of 846 cases (13.1%). The most common bacteria were Staphylococcus species (71/846 [8.4%]) followed by Pseudomonas species (60/846 [7.1%]). Second-generation cephalosporins (322/846 [38.1%]) were the most common broad-spectrum antibiotics prescribed, followed by carbapenems (174/846 [20.6%]). Invasive mechanical ventilation and noninvasive respiratory support was provided in 438 of 846 (51.8%) and 500 of 846 (59.1%) patients, respectively. PICU mortality was 65 of 846 (7.7%). In the multivariable logistic regression model, age (adjusted odds ratio [aOR], 1.08; 95% CI, 1.00-1.16), Pediatric Index of Mortality 3 score (aOR, 1.03; 95% CI, 1.02-1.05), and drowsiness (aOR, 2.73; 95% CI, 1.24-6.00) were associated with greater odds of mortality. In the PACCMAN contributing PICUs, pneumonia is a frequent cause for admission (7%) and is associated with a greater odds of mortality.

Vaccines for Respiratory Viruses-COVID and Beyond.

The COVID-19 (coronavirus disease 2019) pandemic had an extensive impact on global morbidity and mortality. Several other common respiratory viruses, such as the influenza virus and respiratory syncytial virus (RSV), are endemic or epidemic agents causing acute respiratory infections that are easily transmissible and pose a significant threat to communities due to efficient person-to-person transmission. These viruses can undergo antigenic variation through genetic mutations, resulting in the emergence of novel strains or variants, thereby diminishing the effectiveness of current vaccines, and necessitating ongoing monitoring and adjustment of vaccine antigens. As the virus-specific immunity is maintained only for several weeks or months after the infection, there is an emergent need to develop effective and durable vaccines. Additionally, specific populations, such as elderly or immunocompromised individuals, may exhibit reduced immune responses to respiratory viruses, posing significant challenges to develop vaccines that elicit durable and potent immunity. We present a comprehensive review of the molecular mechanisms underlying the pathogenesis and virulence of common respiratory viruses, such as RSV, influenza virus, and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We discuss several vaccine approaches that are under development. A thorough understanding of the current strategies and the challenges encountered during the vaccine development process can lead to the advancement of effective next-generation vaccines.

Effect of Palivizumab Prophylaxis on Respiratory Syncytial Virus Hospitalizations in Preterm Infants Born to 290/7 to 316/7 Weeks of Gestational Age

Abstract Objective In 2020, in-line with the recommendations of the Turkish Neonatal Society, a new palivizumab indication was added for preterm infants with 290/7 to 316/7 weeks of gestational age. This study aimed to determine the risk factors of hospitalizations due to lower respiratory tract infections (LRTIs) and respiratory syncytial virus (RSV) in preterm infants (290/7–316/7 weeks of gestational age) who were or were not within the scope of palivizumab indication during the first two RSV seasons (2018–2019 and 2019–2020) and the next two RSV seasons (2020–2021 and 2021–2022) to evaluate the validity of the new indication of palivizumab reimbursement scope. Methods This study was a two-center retrospective and prospective cohort study and included all preterm infants (290/7–316/7 weeks) aged 90 days and younger during the RSV season (October–March). The primary outcome was to compare the hospitalization rates between patients who received palivizumab and those who did not. The secondary outcome was to identify the risk factors for patients hospitalized due to LRTIs. Results Of the 122 preterm infants included in the study, 48.3% (n = 59) were in the prophylaxis group (Group 1) and 51.7% (n = 63) were in the non-prophylaxis group (Group 2). It was noteworthy that 53.8% (n = 14) of the 26 infants hospitalized due to LRTIs were in Group 1 and 46.2% (n = 12) were in Group 2 (p = 0.682). Of the RSV PCR-positive infants, 62.5%(n = 5) were in Group 1 and 37.5% (n = 3) were in Group 2 (p = 0.30). The median length of hospitalization was similar in the groups (p = 0.123). Conclusion The indication for palivizumab prophylaxis can be determined more clearly for our country in light of national multicenter studies with an increased sample size.

Assessment of DNA/RNA Defend Pro: An Inactivating Sample Collection Buffer for Enhanced Stability, Extraction-Free PCR, and Rapid Antigen Testing of Nasopharyngeal Swab Samples.

This study comprehensively evaluated the DNA/RNA Defend Pro (DRDP) sample collection buffer, designed to inactivate and stabilize patient samples. The primary objectives were to assess DRDP's efficacy in ensuring sample stability, facilitating extraction-free polymerase chain reaction (PCR), and ensuring compatibility with rapid antigen testing (RAT). Ninety-five diagnostic nasopharyngeal swab samples tested for influenza virus (influenza A), respiratory syncytial virus (RSV A), and/or severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) were 10-fold diluted with DRDP and anonymized. Initial characterization and retesting of these samples using cobas Liat confirmed 88 samples as positive, validating the presence of viral targets. Results from rapid antigen testing showed lower sensitivity compared to nucleic acid amplification testing (NAAT) but maintained perfect specificity, with 40 out of 88 positive samples by cobas Liat also testing positive for RAT. Direct RT-qPCR of DRDP-diluted samples demonstrated robust compatibility, with 72 out of 88 samples positive for cobas Liat also testing positive by direct RT-qPCR. Non-concordant results could be explained by the 200-fold lower input of extraction-free NAAT. Stability testing involved incubating 31 positive samples at 4 °C, 20 °C, and 37 °C for 7 days, with extraction-free NAAT. DRDP guaranteed viral RNA stability at all temperatures for influenza A, SARS-CoV-2, and RSV A, showing stability up to 7 days at 4 °C. In conclusion, DRDP is an effective stabilizing medium compatible with direct RT-qPCR and rapid antigen testing and shows great potential for optimizing diagnostic processes, particularly in resource-limited or time-sensitive scenarios.

Dual-functional emulsifier based nano-emulsion adjuvant effectively enhanced immunogenicity of recombinant respiratory syncytial virus vaccine in mice

Oil-in-water nano-emulsion adjuvant (NEA) has been utilized for many years in the development of subunit or/and recombinant vaccines. Nevertheless, worries have been expressed about the safety and potential biological activities of the emulsifier. Herein, tocopheryl polyethylene glycol 1000 succinate (TPGS), which acts not only as an emulsifier but also as an immunostimulant, was used for the preparation of NEA. Benefiting from the hydrophilic-hydrophobic nature of TPGS, NEA possess a homogeneous structure with an extremely narrow size distribution (approximately 160 nm in diameter, polydispersity index <0.15), and exhibits excellent stability over 6 months under test conditions. When such an NEA was used with a recombinant respiratory syncytial virus (RSV) vaccine, the adjuvanted vaccine induced enhanced humoral and cellular immunity in mice compared to the non-adjuvanted vaccine. This is the initial documented finding of TPGS adjuvanticity in an intramuscularly injected vaccine. Furthermore, the TPGS-based NEA showed elevated adjuvant potency compared to the MF59-like emulsion adjuvant assessed. These results imply the potential of NEA as an alternative adjuvant for developing recombinant vaccines with enhanced immunity.