Portal de investigación
Worldwide Dissemination of blaKPC Gene by Novel Mobilization Platforms in Pseudomonas aeruginosa: A Systematic Review
Fecha de publicación:
Fecha Ahead of Print:
Autores organización
Autores
- Forero-Hurtado D
- Ruiz-Castellanos JS
- Márquez-Ortiz RA
- Vanegas N
Grupos de investigación
Resumen
The dissemination of blaKPC-harboring Pseudomonas aeruginosa (KPC-Pa) is considered a serious public health problem. This study provides an overview of the epidemiology of these isolates to try to elucidate novel mobilization platforms that could contribute to their worldwide spread. A systematic review in PubMed and EMBASE was performed to find articles published up to June 2022. In addition, a search algorithm using NCBI databases was developed to identify sequences that contain possible mobilization platforms. After that, the sequences were filtered and pair-aligned to describe the blaKPC genetic environment. We found 691 KPC-Pa isolates belonging to 41 different sequence types and recovered from 14 countries. Although the blaKPC gene is still mobilized by the transposon Tn4401, the non-Tn4401 elements (NTEKPC) were the most frequent. Our analysis allowed us to identify 25 different NTEKPC, mainly belonging to the NTEKPC-I, and a new type (proposed as IVa) was also observed. This is the first systematic review that consolidates information about the behavior of the blaKPC acquisition in P. aeruginosa and the genetic platforms implied in its successful worldwide spread. Our results show high NTEKPC prevalence in P. aeruginosa and an accelerated dynamic of unrelated clones. All information collected in this review was used to build an interactive online map. © 2023 by the authors.
Datos de la publicación
- ISSN/ISSNe:
- 2079-6382, 2079-6382
- Tipo:
- Review
- Páginas:
- -
- Enlace a otro recurso:
- www.scopus.com
ANTIBIOTICS-BASEL Multidisciplinary Digital Publishing Institute (MDPI)
Citas Recibidas en Web of Science: 3
Citas Recibidas en Scopus: 18
Documentos
- No hay documentos
Filiaciones
Keywords
- carbapenemase; transposase; bacterium isolate; carbapenem resistance; computer model; Embase; Klebsiella pneumoniae; Medline; mobilization; nonhuman; open reading frame; Pseudomonas aeruginosa; public health; Review; systematic review; transposon
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Citar la publicación
Forero D,Corredor ZL,Ruiz JS,Márquez RA,Abril D,Vanegas N,Lafaurie GI,Chambrone L,Escobar J. Worldwide Dissemination of blaKPC Gene by Novel Mobilization Platforms in Pseudomonas aeruginosa: A Systematic Review. Antibiotics (Basel). 2023. 12(4):658. IF:4,300. (1).