Literature DB >> 18154524

Defining an extended-spectrum beta-lactamase.

D M Livermore1.   

Abstract

The term 'extended-spectrum beta-lactamase' (ESBL), initially 'extended-broad-spectrum beta-lactamase', was first coined for derivatives of TEM and SHV enzymes able to hydrolyse oxyimino-cephalosporins. These all belonged to beta-lactamase functional group 2be. Subsequently, the term has been stretched to include: (i) enzymes with spectra similar to those of TEM and SHV mutants but derived from other sources, e.g., the CTX-M and VEB types; (ii) TEM and SHV mutants with borderline ESBL activity, e.g., TEM-12; and (iii) various beta-lactamases conferring wider resistance than their parent types but not meeting the definition for group 2be, e.g., OXA derivatives and mutant AmpC types with increased activity against cefepime. It seems best-and pragmatic-that the term 'ESBL' retains its broad modern usage, but that should always be accompanied by mention of the enzyme's family as, e.g., in 'TEM ESBL' or 'OXA ESBL', not as a sole moniker.

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Year:  2008        PMID: 18154524     DOI: 10.1111/j.1469-0691.2007.01857.x

Source DB:  PubMed          Journal:  Clin Microbiol Infect        ISSN: 1198-743X            Impact factor:   8.067


  30 in total

1.  [Classification and diagnostics of multiresistant bacteria].

Authors:  C M Schneider; A Serr
Journal:  Ophthalmologe       Date:  2010-04       Impact factor: 1.059

2.  Redefining extended-spectrum beta-lactamases: balancing science and clinical need.

Authors:  Christian G Giske; Arnfinn S Sundsfjord; Gunnar Kahlmeter; Neil Woodford; Patrice Nordmann; David L Paterson; Rafael Cantón; Timothy R Walsh
Journal:  J Antimicrob Chemother       Date:  2008-10-28       Impact factor: 5.790

3.  [Periprosthetic infections following total hip replacement with ESBL-forming bacteria: importance for clinical practice].

Authors:  M Haenle; A Podbielski; M Ellenrieder; R Skripitz; K Arndt; W Mittelmeier; R Bader; H Gollwitzer
Journal:  Orthopade       Date:  2011-06       Impact factor: 1.087

Review 4.  Molecular mechanisms of antibiotic resistance.

Authors:  Jessica M A Blair; Mark A Webber; Alison J Baylay; David O Ogbolu; Laura J V Piddock
Journal:  Nat Rev Microbiol       Date:  2014-12-01       Impact factor: 60.633

5.  Fast and Accurate Large-Scale Detection of β-Lactamase Genes Conferring Antibiotic Resistance.

Authors:  Jae Jin Lee; Jung Hun Lee; Dae Beom Kwon; Jeong Ho Jeon; Kwang Seung Park; Chang-Ro Lee; Sang Hee Lee
Journal:  Antimicrob Agents Chemother       Date:  2015-07-13       Impact factor: 5.191

6.  Extended-spectrum β-lactamase-producing Gram-negative pathogens in community-acquired urinary tract infections: an increasing challenge for antimicrobial therapy.

Authors:  S Meier; R Weber; R Zbinden; C Ruef; B Hasse
Journal:  Infection       Date:  2011-06-25       Impact factor: 3.553

Review 7.  Epidemiology of β-Lactamase-Producing Pathogens.

Authors:  Karen Bush; Patricia A Bradford
Journal:  Clin Microbiol Rev       Date:  2020-02-26       Impact factor: 26.132

8.  State of the globe: evaluating the existence of extended spectrum Beta lactamases.

Authors:  Stephen E Mshana
Journal:  J Glob Infect Dis       Date:  2009-07

9.  Structural Insights into Inhibition of the Acinetobacter-Derived Cephalosporinase ADC-7 by Ceftazidime and Its Boronic Acid Transition State Analog.

Authors:  Brandy N Curtis; Kali A Smolen; Sara J Barlow; Emilia Caselli; Fabio Prati; Magdalena A Taracila; Robert A Bonomo; Bradley J Wallar; Rachel A Powers
Journal:  Antimicrob Agents Chemother       Date:  2020-11-17       Impact factor: 5.191

10.  Crystal Structure of the Pseudomonas aeruginosa BEL-1 Extended-Spectrum β-Lactamase and Its Complexes with Moxalactam and Imipenem.

Authors:  Cecilia Pozzi; Filomena De Luca; Manuela Benvenuti; Laurent Poirel; Patrice Nordmann; Gian Maria Rossolini; Stefano Mangani; Jean-Denis Docquier
Journal:  Antimicrob Agents Chemother       Date:  2016-11-21       Impact factor: 5.191
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