Publication date: Jul 10, 2025
Pseudomonas aeruginosa (PA) bloodstream infections (BSIs) are severe, life-threatening events. PA success involves a complex interplay between virulence, antimicrobial resistance and epidemicity. This study examines the impact of COVID-19 pandemic on PA-BSI characteristics. Seventy-eight bacteraemic PA isolates were collected in two periods: pre-COVID 2015-2018 (48 PA) and post-COVID 2022-2023 (30 PA). An increase in non-susceptibility rates was found in post-COVID period, noteworthy for gentamicin, netilmicin and multidrug-resistance, although extensively drug resistant/difficult-to-treat (XDR/DTR) isolates were only detected in pre-COVID period. All isolates were cefiderocol-susceptible, but resistance to novel cephalosporin-inhibitor combinations and colistin was identified in pre-COVID period. Carbapenem-non-susceptible PA persisted around 20%, associated with OprD alterations and one pre-COVID-isolate harboured bla. High clonal diversity was found: 71 pulsotypes and 52 sequence types (most prevalent: ST17, ST244 and ST274). A shift in serotypes was detected between pre-COVID-PA (O:1) and post-COVID-PA (O:6). Eight virulotypes were detected, highlighting one exlA-hypervirulent post-COVID-PA, and exoU/exoS genotype in 17% pre-COVID-PA but none post-COVID-PA. Biofilm production was significantly higher in pre-COVID-PA. This work shed light on the evolving nature of PA infections amidst the COVID-19 pandemic, providing valuable insights for clinical management and reinforcing the importance of judicious antibiotic use in the context of public health crises.