Monitoring ESBL-Escherichia coliin Swiss wastewater between November 2021 and November 2022: insights into population carriage

Abstract

AbstractBackgroundAntimicrobial resistance (AMR) poses a global health threat, causing millions of deaths annually, with expectations of increased impact in the future. Wastewater surveillance offers a cost-effective, non-invasive tool to understand AMR carriage trends within a population.AimWe monitored extended-spectrum β-lactamase producingEscherichia coli(ESBL-E. coli) weekly in influent wastewater from six wastewater treatment plants (WWTPs) in Switzerland (November 2021 to November 2022) to investigate spatio-temporal variations, explore correlations with environmental variables, develop a predictive model for ESBL-E. colicarriage in the community, and detect the most prevalent ESBL-genes.MethodsWe cultured total and ESBL-E. coliin 300 wastewater samples to quantify daily loads and percentage of ESBL-E. coli. Additionally, we screened 234 ESBL-E. coliisolates using molecular-methods for the presence of 18 ESBL-gene families.ResultsWe found a population-weighted mean percentage of ESBL-E. coliof 1.9% (95%CI 1.8%, 2%) across all sites and weeks, which can inform ESBL-E. colicarriage. Concentrations of ESBL-E. colivaried across WWTPs and time, with higher values observed in WWTPs serving larger populations. Recent precipitations (previous 24-/96-hours) showed no significant association with ESBL-E. coli, while temperature occasionally had a moderate impact (p<0.05, correlation coefficients approximately 0.40) in some locations. We identifiedblaCTX-M-1,blaCTX-M-9andblaTEMas the predominant ESBL-gene families.ConclusionsOur study demonstrates that wastewater-based surveillance of culturable ESBL-E. coliprovides insights into AMR trends in Switzerland and may also inform resistance. These findings establish a foundation for long-term, nationally established monitoring protocols and provide information that may help inform targeted public health interventions.