Carbapenem-Resistant, Gram-Negative Bacilli: The State of the Art. The State of the Art
Source of Publication
Antibiotic Resistance: Mechanisms and New Antimicrobial Approaches
© 2016 Elsevier Inc. All rights reserved. The evolution of antimicrobial resistance in bacteria is a complex and longstanding process that has gathered much attention by outpacing the discovery and development of new antibiotics. Among Gram-negative bacilli, resistance has been progressive and unremitting in Enterobacteriaceae, Pseudomonas aeruginosa, and Acinetobacter baumannii. In particular, the spread of carbapenem-resistant, Gram-negative bacilli during the last decade has escalated worldwide, resulting in severe infections, some of which respond to only a few therapeutic options. Often viewed as last-resort antibiotics, carbapenems are rendered inactive against bacteria via the production of carbapenem-hydrolyzing enzymes, utilization of impermeable cell wall porins, active expulsion of carbapenem molecules by efflux pumps, production of mutant penicillin-binding proteins, or a combination. This chapter describes the mechanisms and epidemiology of resistance to carbapenems in Gram-negative pathogens. It also sheds a light on laboratory detection of these pathogens and presents available control and therapeutic options for their containment.
Life Sciences | Medicine and Health Sciences
Carbapenem resistance, Carbapenemases, Efflux pumps, Gram-negative pathogens
Halat, D. H.; Sarkis, D. K.; and Moubareck, C. A., "Carbapenem-Resistant, Gram-Negative Bacilli: The State of the Art. The State of the Art" (2016). All Works. 830.
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