Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-7 (of 7 Records) |
Query Trace: Peret TCT[original query] |
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Respiratory syncytial virus infection among hospitalized infants in four middle-income countries
Biggs HM , DeGroote NP , Porter RM , Bino S , Marar BI , Gresh L , de Jesus-Cornejo J , Langley G , Thornburg NJ , Peret TCT , Whitaker B , Zhang Y , Wang L , Patel MC , McMorrow M , Campbell W , Hasibra I , Duka E , Al-Gazo M , Kubale J , Sanchez F , Lucero MG , Tallo VL , Azziz-Baumgartner E , Simaku A , Gerber SI . J Pediatric Infect Dis Soc 2023 12 (7) 394-405 BACKGROUND: Understanding respiratory syncytial virus (RSV) global epidemiology is important to inform future prevention strategies. METHODS: Hospitalized infants <1-year-old with acute illness were enrolled prospectively in Albania, Jordan, Nicaragua, and Philippines during respiratory seasons in 2015-2017. Medical chart review, parental interview, and post-discharge follow up were conducted. Respiratory specimens were tested using real-time RT-PCR for RSV. Infant characteristics associated with very severe illness (intensive care unit [ICU] admission or receipt of supplemental oxygen) were assessed using logistic regression to adjust for potential confounders (age, sex, study site, preterm birth). RESULTS: Of 3,634 enrolled hospitalized infants, 1,129 (31%) tested positive for RSV. The median age of RSV-positive infants was 2.7 (IQR: 1.4 to 6.1) months and 665 (59%) were male. Very severe illness in 583 (52%) RSV-positive infants was associated with younger age (aOR 4.1, 95% CI: 2.6-6.5 for 0-2 compared to 9-11-months; p<0.01), , low weight-for-age z-score (aOR 1.9, 95%CI: 1.2-2.8; p<0.01), ICU care after birth (aOR 1.6, 95%CI: 1.0-2.5; p=0.48), and cesarean delivery (aOR 1.4, 95% CI: 1.0-1.8; p=.03). RSV subgroups A and B co-circulated at all sites with alternating predominance by year; subgroup was not associated with severity (aOR 1.0, 95% CI: 0.8-1.4). Nine (0.8%) RSV-positive infants died during admission or within ≤30 days of discharge, of which 7 (78%) were <6-months-old. CONCLUSIONS: RSV was associated with nearly a third of infant acute illness hospitalizations in four middle-income countries during the respiratory season, where, in addition to young age, factors including low weight-for-age might be important predictors of severity. RSV prevention strategies targeting young infants could substantially reduce RSV-associated hospitalizations in middle-income countries. |
Next-Generation Sequencing of Human Respiratory Syncytial Virus Subgroups A and B Genomes.
Wang L , Ng TFF , Castro CJ , Marine RL , Magaña LC , Esona M , Peret TCT , Thornburg NJ . J Virol Methods 2021 299 114335 Human respiratory syncytial virus (HRSV) is a leading cause of acute respiratory illness in young children worldwide. Whole genome sequencing of HRSV offers enhanced resolution of strain variability for epidemiological surveillance and provides genomic information essential for antiviral and vaccine development. A 10-amplicon one-step RT-PCR assay and a 20-amplicon nested RT-PCR assay with enhanced sensitivity were developed to amplify whole HRSV genomes from samples containing high and low viral loads, respectively. Ninety-six HRSV-positive samples comprised of 58 clinical specimens and 38 virus isolates with C(t) values ≤ 24 were amplified successfully using the 10-amplicon one-step RT-PCR method and multiplexed in a single MiSeq run. Genome coverage exceeded 99.3% for all 96 samples. The 20-amplicon nested RT-PCR NGS method was used to generate >99.6% HRSV full-length genome for 72 clinical specimens with C(t) values ranging from 24 to 33. Phylogenetic analysis of the genome sequences obtained from the 130 clinical specimens revealed a wide diversity of HRSV genotypes demonstrating methodologic robustness. |
A respiratory syncytial virus attachment (G) gene variant associated with more severe disease in infants decreases fusion (F) protein expression which may facilitate immune evasion.
Human S , Hotard AL , Rostad CA , Lee S , McCormick L , Larkin EK , Peret TCT , Jorba J , Lanzone J , Gebretsadik T , Williams JV , Bloodworth M , Stier M , Carroll K , Peebles RS Jr , Anderson LJ , Hartert TV , Moore ML . J Virol 2020 95 (2) This study identified a genotype of RSV associated with increased acute respiratory disease severity in a cohort of term, previously healthy infants. The genotype (2stop+A4G) consists of two components. The A4G component is a prevalent point mutation in the 4(th) position of the gene end transcription termination signal of the G gene of currently circulating RSV strains. The 2stop component is two tandem stop codons at the G gene terminus, preceding the gene end transcription termination signal. To investigate the biological role of these RSV G gene mutations, recombinant RSV strains harboring either a wild type A2 strain G gene (one stop codon preceding a wild type gene end signal), an A4G gene end signal preceded by one stop codon, or the 2stop+A4G virulence-associated combination were generated and characterized. Infection with the rA4G RSV mutant resulted in transcriptional read-through and lower G and fusion (F) protein levels relative to wild type. Addition of a second stop codon preceding the A4G point mutation (2stop+A4G) restored G protein expression but retained lower F protein levels. These data suggest that RSV G and F glycoprotein expression is regulated by transcriptional and translational read-through. Notably, while rA4G and r2stop+A4G RSV were attenuated in cells and in naïve BALB/c mice compared to wild type RSV, the r2stop+A4G RSV was better able to infect BALB/c mice in the presence of pre-existing immunity in comparison to rA4G RSV. Together these factors may contribute to the maintenance and virulence of the 2stop+A4G genotype in currently circulating RSV-A strains.IMPORTANCE Strain-specific differences in respiratory syncytial virus (RSV) isolates are associated with differential pathogenesis in mice. However, the role of RSV genotypes in human infection is incompletely understood. This work demonstrates that one such genotype, 2stop+A4G, present in the RSV attachment (G) gene terminus is associated with greater infant disease severity. The genotype consists of two tandem stop codons preceding an A-to-G point mutation in the 4(th) position of the G gene end transcription termination signal. Virologically, the 2stop+A4G RSV genotype results in reduced levels of the RSV fusion (F) glycoprotein. A recombinant 2stop+A4G RSV was better able to establish infection in the presence of existing RSV immunity compared to a virus harboring the common A4G mutation. These data suggest that regulation of G and F expression has implications for virulence and potentially immune evasion. |
Results from the WHO external quality assessment for the respiratory syncytial virus pilot, 2016-17
Jackson S , Peret TCT , Ziegler TT , Thornburg NJ , Besselaar T , Broor S , Barr I , Baumeister E , Chadha M , Chittaganpitch M , Darmaa B , Ellis J , Fasce R , Herring B , Herve K , Hirve S , Li Y , Pisareva M , Moen A , Naguib A , Palekar R , Potdar V , Siqueira M , Treurnicht F , Tivane A , Venter M , Wairagkar N , Zambon M , Zhang W . Influenza Other Respir Viruses 2020 14 (6) 671-677 BACKGROUND: External quality assessments (EQAs) for the molecular detection of respiratory syncytial virus (RSV) are necessary to ensure the provision of reliable and accurate results. One of the objectives of the pilot of the World Health Organization (WHO) Global RSV Surveillance, 2016-2017, was to evaluate and standardize RSV molecular tests used by participating countries. This paper describes the first WHO RSV EQA for the molecular detection of RSV. METHODS: The WHO implemented the pilot of Global RSV Surveillance based on the WHO Global Influenza Surveillance and Response System (GISRS) from 2016 to 2018 in 14 countries. To ensure standardization of tests, 13 participating laboratories were required to complete a 12 panel RSV EQA prepared and distributed by the Centers for Disease Control and Prevention (CDC), USA. The 14th laboratory joined the pilot late and participated in a separate EQA. Laboratories evaluated a RSV rRT-PCR assay developed by CDC and compared where applicable, other Laboratory Developed Tests (LDTs) or commercial assays already in use at their laboratories. RESULTS: Laboratories performed well using the CDC RSV rRT-PCR in comparison with LDTs and commercial assays. Using the CDC assay, 11 of 13 laboratories reported correct results. Two laboratories each reported one false-positive finding. Of the laboratories using LDTs or commercial assays, results as assessed by Ct values were 100% correct for 1/5 (20%). With corrective actions, all laboratories achieved satisfactory outputs. CONCLUSIONS: These findings indicate that reliable results can be expected from this pilot. Continued participation in EQAs for the molecular detection of RSV is recommended. |
Multiple Respiratory Syncytial Virus Introductions Into a Neonatal Intensive Care Unit.
Rose EB , Washington EJ , Wang L , Benowitz I , Thornburg NJ , Gerber SI , Peret TCT , Langley GE . J Pediatric Infect Dis Soc 2020 10 (2) 118-124 BACKGROUND: Outbreaks of respiratory syncytial virus (RSV) in neonatal intensive care units (NICUs) are of concern because of the risk of severe disease in young infants. We describe an outbreak of RSV in a NICU and use whole genome sequencing (WGS) to better understand the relatedness of viruses among patients.SummaryUsing whole genome sequencing, we found 2 introductions of respiratory syncytial virus (RSV) into a neonatal intensive care unit causing 7 infections. This outbreak highlights the risk of healthcare-associated infections during RSV season; early recognition is critical to limit transmission. METHODS: An investigation was conducted to identify patients and describe their clinical course. Infection control measures were implemented to prevent further spread. Respiratory specimens from outbreak-related patients and the community were tested using WGS. Phylogenetic trees were constructed to understand relatedness of the viruses. RESULTS: Seven patients developed respiratory symptoms within an 11-day span in December 2017 and were diagnosed with RSV; 6 patients (86%) were preterm and 1 had chronic lung disease. Three patients required additional respiratory support after symptom onset, and none died. Six of 7 patients were part of the same cluster based on > 99.99% nucleotide agreement with each other and 3 unique single-nucleotide polymorphisms were identified in viruses sequenced from those patients. The seventh patient was admitted from the community with respiratory symptoms and had a genetically distinct virus that was not related to the other 6. Implementation of enhanced infection control measures likely limited the spread. CONCLUSIONS: Using WGS, we found 2 distinct introductions of RSV into a NICU, highlighting the risk of healthcare-associated infections during RSV season. Early recognition and infection control measures likely limited spread, emphasizing the importance of considering RSV in the differential diagnosis of respiratory infections in healthcare settings. |
Severe human metapneumovirus and group A Streptococcus pneumonia in an immunocompetent adult
Biggs HM , Van Beneden CA , Kurkjian K , Kobayashi M , Peret TCT , Watson JT , Schneider E , Gerber SI , Ravishankar J . Clin Infect Dis 2019 70 (12) 2712-2714 An immunocompetent adult with asthma developed severe human metapneumovirus (HMPV) illness complicated by group A Streptococcus coinfection, progressing to ARDS and shock. Several coworkers had less severe HMPV infection. HMPV can cause severe respiratory illness in healthy adults and should be considered as a potential cause of community respiratory outbreaks. |
Duplex Real-Time RT-PCR Assay for Detection and Subgroup-Specific Identification of Human Respiratory Syncytial Virus.
Wang L , Piedra P , Avadhanula V , Durigon EL , Machablishvili A , Lopez MR , Thornburg N , Peret TCT . J Virol Methods 2019 271 113676 Human respiratory syncytial virus (HRSV) is a leading cause of acute respiratory illness in young children worldwide. Reliable detection and identification of HRSV subgroup A and B infections are essential for accurate disease burden estimates in anticipation of licensure of novel HRSV vaccines and immunotherapies. To ensure continued reliability, molecular assays must remain current with evolving virus strains. We have developed a HRSV subgroup-specific real-time RT-PCR (rRT-PCR) assay for detection and subgroup identification using primers and subgroup-specific probes targeting a conserved region of the nucleoprotein gene combined in a single duplex reaction using all genome sequence data currently available in GenBank. The assay was validated for analytical sensitivity, specificity, reproducibility and clinical performance with a geographically diverse collection of viral isolates and respiratory specimens in direct comparison with an established pan-HRSV rRT-PCR reference test. The assay was sensitive, reproducibly detecting as few as 5 to 10 copies/reaction of target RNA. The assay was specific, showing no amplification with a panel of 16 other common respiratory pathogens or predicted by in silico primer/probe analysis. The duplex rRT-PCR assay based on the most current available genome sequence data permits rapid, sensitive and specific detection and subgroup identification of HRSV. |
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