Data on economic costs of respiratory syncytial virus (RSV) infections among children in primary care are scarce, although most RSV-infections are managed in this setting.

To estimate outpatient costs for RSV-positive children aged < 5 years.

In the RSV ComNet prospective cohort, children < 5 years with acute respiratory infection were recruited for RSV testing through primary care physicians in Belgium, Italy, the Netherlands, Spain and the United Kingdom (UK) during RSV seasons 2020/21 (UK only), 2021/22 and 2022/23. Outpatient healthcare utilisation and parental work absence were assessed over 30 days through parental questionnaires. Average costs per RSV episode were calculated from outpatient healthcare sector and societal perspectives, stratified by country and age.

We included 3,414 children and 1,124 (33%) tested RSV-positive. Physicians completed reports for 878 episodes, with follow-up questionnaire data for 819 (93%). Outpatient costs ranged from EUR 97 (95% CI: 91–104) in the Netherlands to EUR 300 (95% CI: 287–312) in Spain and were higher for infants than children aged 1–5 years. Societal costs ranged from EUR 454 (95% CI: 418–494) in the UK to EUR 994 (95% CI: 938–1,053) in Belgium. For children aged 1–5 years, societal costs were primarily driven by parental work absence. In infants, the main societal cost driver varied by country, but overall outpatient healthcare costs represented a higher proportion of societal costs vs older children.

RSV infections in children attending primary care result in substantial economic costs per episode, although differences exist across countries. This study provides essential data to inform cost-effectiveness analyses on novel RSV immunisations.

Vancomycin-resistant Enterococcus faecium (VREfm) isolates of sequence type (ST)1299 were described recently in south-eastern German hospitals and rapidly expanded from local to cross-border level.

We describe the spread of the novel VREfm strain ST1299/vanA on a genetic, geographical and temporal level during the first 5 years after its detection.

At University Hospital Regensburg (UHoR), routine VREfm surveillance is whole genome sequencing-based (≥ 1 VREfm per van-genotype, patient and year). In this observational cohort study, we analysed one VREfm ST1299 isolate from our database (2016–2022) per patient and year. Isolates were added from the Hospital of the Merciful Brothers Regensburg (MBR), the National Reference Centre for Staphylococci and Enterococci (NRC), and clinical isolates from Austria.

We identified 635 VREfm ST1299 isolates (100% vanA), including 504 from Regensburg, and 113 blood cultures. ST1299 isolates were first detected in 2018 simultaneously in Regensburg (n = 2) and southern Bavaria (n = 2), with local (UHoR) and regional numbers increasing rapidly from 2020, shifting to national scale in the same year. Genome data, analysed by cgMLST, showed a predominance of ST1299/CT1903 (315/504 isolates, 62.5%) and ST1299/CT3109 (127/504 isolates, 25.2%) isolates from Regensburg. By 2021, ST1299/CT1903 reached Upper Austria causing hospital outbreaks (n = 5). Phylogeny analysis suggests common ancestors with VREfm ST80, ST18 and ST17.

Since their emergence in 2018, two highly transmissible subtypes of ST1299/vanA reached national, then cross-border scale. The observed outbreak tendency may explain the rapid and successful spread and the high clonality in our collection.

Between 2020 and 2023, ECDC has supported 21 of 30 EU/EEA and six Western Balkan countries by enhancing severe acute respiratory infection (SARI) surveillance to monitor trends, detect unexpected events, evaluate public health interventions, identify risk factors and support vaccine effectiveness studies. Using diverse strategies, countries have implemented SARI surveillance and reported data at national/European levels.

We evaluated European-level SARI surveillance and provided recommendations to achieve objectives and improve key attribute performance.

We analysed 2022/23 surveillance data for completeness. We administered a questionnaire, targeting country-level representatives, to evaluate surveillance attributes (meeting objectives, usefulness, acceptability, timeliness, representativeness) and identify strengths, weaknesses, opportunities and threats.

Thirteen countries (13/27) reported data at European level. Data showed good overall completeness but varied across countries and some variables need improvement (vaccination, sequencing). The questionnaire was completed by all 27 countries. Most countries (23/27) reported that the system effectively monitored trends and considered it useful and acceptable (25/27), but only 16 found it timely and 14 representative. Challenges included insufficient case-based data, data linkage issues and insufficient data completeness. Slow/inefficient manual data extraction affected timeliness, while insufficient geographical coverage affected representativeness. Multi-pathogen surveillance was identified as the main strength, heterogeneity of systems the main weakness, improvements of hospital information systems the main opportunity, and lack of sustainable funding the main threat.

SARI surveillance was perceived as effective in monitoring trends, useful and acceptable. To achieve additional objectives and enhance timeliness and representativeness, we recommend improving data completeness, digitalisation/automation and geographical coverage.