BACKGROUND: Carbapenem-resistant Enterobacterales pose a substantial threat to patients and health-care systems. We conducted a survey of carbapenem-resistant and/or colistin-resistant Enterobacterales (CCRE survey) in 37 European countries to describe their occurrence, geographical distribution, and population dynamics and inform control policies. We report the results of Klebsiella pneumoniae species complex isolates in this study. METHODS: In this cross-sectional, epidemiological, microbiological, and genomic study conducted in all EU, European Economic Area and EU candidate countries as of 2019, hospital microbiology laboratories were selected on the basis of population coverage. Participating laboratories collected, from patient samples, the first ten successive isolates of carbapenem-resistant or carbapenem-susceptible increased exposure (carbapenem-R/I) K pneumoniae species complex or Escherichia coli, and carbapenem-susceptible (carbapenem-S) comparator isolates of the same species, accompanied by patient epidemiological and clinical information. Isolate collection started in 2019, with three possible starting dates-ie, March 1, April 1, or May 1, 2019, and ended after collection of ten carbapenem-R/I and carbapenem-S isolates or a maximum period of 6 months. Isolates were tested for phenotypic susceptibility to 16 antimicrobial agents of relevance to K pneumoniae species complex. Whole-genome sequencing was performed centrally using Illumina technology. Isolates from the CCRE survey were compared with those from the European Survey of Carbapenemase-Producing Enterobacteriaceae (EuSCAPE) study. FINDINGS: 1566 carbapenem-R/I and 1407 carbapenem-S K pneumoniae species complex isolates collected from patients in 302 hospitals in 36 countries (one country did not send isolates) were analysed in this study. The high-risk lineages identified during a previous similar survey in 2013-14 (EuSCAPE) were found to continue to circulate across European hospitals in 2019 (ST11, ST15, ST101, and ST258/512). Moreover, concerning shifts in the pathogen population were observed. First, a higher proportion of carbapenem-R/I isolates was found to carry a carbapenemase gene in the CCRE survey (1398 89·3% of 1566) than in EuSCAPE (657 69·6% of 944), mainly related to increased acquisition of carbapenemase genes by high-risk lineages. Of note, among ST307 isolates from all hospitals, the proportion of carbapenem-R/I isolates carrying a carbapenemase gene increased from 14 (60·9%) of 23 in EuSCAPE to 164 (91·1%) of 180 in the CCRE survey. Second, an expansion of emerging multidrug-resistant lineages (ST147, ST307, and ST39) was also noted: Among 113 hospitals that contributed K pneumoniae species complex isolates to both EuSCAPE and the CCRE survey, the proportion of ST147 increased from 16 (3·4%) of 476 in EuSCAPE to 49 (7·4%) of 662 carbapenem-R/I isolates in the CCRE survey, that of ST307 increased from 15 (3·2%) of 476 to 88 (13·3%) of 662, and that of ST39 increased from 3 (0·6%) of 476 to 10 (1·5%) of 662. Third, there was an increased spread of isolates harbouring acquired virulence loci: isolates with the highest Kleborate virulence score of five increased from 7 (0·4%) of 1717 in EuSCAPE to 40 (1·3%) of 2973 in the CCRE survey. Notably, the increase was mainly observed in the carbapenem-S-group. INTERPRETATION: The survey findings portray an escalating epidemiological situation and suggest that control measures have not been able to interrupt transmission of high-risk lineages of carbapenemase-producing K pneumoniae in European hospitals. The heterogeneous and evolving situation with regards to circulating lineages and dominant carbapenemase genes requires strengthening and continuous adaptation of diagnostic, treatment, and control measures guided by genomic surveillance. FUNDING: European Centre for Disease Prevention and Control and Centre for Genomic Pathogen Surveillance.
Fröding et al. (Fri,) studied this question.