Distinct Origins and Transmission Pathways of bla KPC Enterobacterales across Three U.S. States.
Zena LappRany OctariaSean M O'MalleyTu Ngoc NguyenHannah WolfordRyan CrawfordChristina MoorePaula Snippes VagnoneDiane NoelNadezhda DuffyAli PiraniLinda S ThomasBrittany PatteeClaire PearsonSandra N BulensSophie HoffmanMarion KainerMelissa AnackerJames MeekIsaac SeeKyle J GontjesAllison ChanRuth LynfieldMeghan MaloneyMary K HaydenEvan S SnitkinRachel B SlaytonPublished in: Journal of clinical microbiology (2023)
Carbapenem-resistant Enterobacterales (CRE) are among the most concerning antibiotic resistance threats due to high rates of multidrug resistance, transmissibility in health care settings, and high mortality rates. We evaluated the potential for regional genomic surveillance to track the spread of bla KPC -carrying CRE (KPC-CRE) by using isolate collections from health care facilities in three U.S. states. Clinical isolates were collected from Connecticut (2017 to 2018), Minnesota (2012 to 2018), and Tennessee (2016 to 2017) through the U.S. Centers for Disease Control and Prevention's Multi-site Gram-negative Surveillance Initiative (MuGSI) and additional surveillance. KPC-CRE isolates were whole-genome sequenced, yielding 255 isolates from 214 patients across 96 facilities. Case report data on patient comorbidities, facility exposures, and interfacility patient transfer were extracted. We observed that in Connecticut, most KPC-CRE isolates showed evidence of importation from outside the state, with limited local transmission. In Minnesota, cases were mainly from sporadic importation and transmission of bla KPC -carrying Klebsiella pneumoniae ST258, and clonal expansion of bla KPC -carrying Enterobacter hormaechei ST171, primarily at a single focal facility and its satellite facilities. In Tennessee, we observed transmission of diverse strains of bla KPC -carrying Enterobacter and Klesbiella , with evidence that most derived from the local acquisition of bla KPC plasmids circulating in an interconnected regional health care network. Thus, the underlying processes driving KPC-CRE burden can differ substantially across regions and can be discerned through regional genomic surveillance. This study provides proof of concept that integrating genomic data with information on interfacility patient transfers can provide insights into locations and drivers of regional KPC-CRE burden that can enable targeted interventions.
Keyphrases
- klebsiella pneumoniae
- multidrug resistant
- escherichia coli
- gram negative
- healthcare
- case report
- public health
- electronic health record
- quality improvement
- air pollution
- cardiovascular disease
- type diabetes
- machine learning
- risk assessment
- gene expression
- risk factors
- drug delivery
- coronary artery disease
- climate change
- social media
- prognostic factors
- cardiovascular events
- genetic diversity
- long term care