Litcius/Paper detail

Sequence analysis of respiratory syncytial virus cases reveals a novel subgroup -B strain circulating in north-central Italy after pandemic restrictions

Alessandra Pierangeli, Fabio Midulla, Antonio Piralla, Guglielmo Ferrari, Raffaella Nenna, Antonino Maria Guglielmo Pitrolo, Amelia Licari, Gian Luigi Marseglia, Dario Abruzzese, Laura Pellegrinelli, Cristina Galli, S. Binda, Danilo Cereda, Matteo Fracella, Giuseppe Oliveto, Roberta Campagna, Laura Petrarca, Elena Pariani, Guido Antonelli, Fausto Baldanti

2024Journal of Clinical Virology23 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Following the pandemic restrictions, the epidemiology of respiratory syncytial virus (RSV) has changed, leading to intense hospitalization peaks. OBJECTIVES: This study, conducted at multiple sites in Italy, aimed to describe the temporal dynamics of two post-COVID-19 RSV epidemics. Additionally, the circulating RSV-A and -B lineages were characterized and compared to those found in 2018 and 2019. STUDY DESIGN: Respiratory specimens and data were collected from RSV-positive patients, both inpatients, and outpatients, of all ages at three sites in north-central Italy. To analyze these samples, roughly one-sixth were sequenced in the attachment glycoprotein G gene and subjected to phylogenetic and mutational analyses, including pre-pandemic sequences from north-central Italy. RESULTS: The first post-pandemic surge of RSV cases was quite intense, occurring from October 2021 to early January 2022. The subsequent RSV epidemic (from November 2022 to early March 2023) also had a high impact, characterized by a rise in elderly patient cases. Post-pandemic cases of RSV-A were caused by various strains present in Italy prior to COVID-19. In contrast, a distinct RSV-B lineage, which was concurrently spreading in other countries, was identified as the main cause of the surge in 2022-2023 but remained undetected in Italy before the pandemic. CONCLUSIONS: This study describes the temporal dynamics of post-pandemic RSV subgroups and uncovers a lineage of RSV-B with high genetic divergence that may have increased the impact of decreased population immunity.

Topics & Concepts

PandemicVirologyVirusLineage (genetic)PopulationStrain (injury)BiologyRespiratory systemHerd immunityMedicineCoronavirus disease 2019 (COVID-19)GeneGeneticsVaccinationInternal medicineDiseaseInfectious disease (medical specialty)Environmental healthAnatomyRespiratory viral infections researchCOVID-19 Clinical Research StudiesCystic Fibrosis Research Advances