• 1
    Walsh TR, Weeks J, Livermore DM, Toleman MA. Dissemination of NDM-1 positive bacteria in the New Delhi environment and its implications for human health: an environmental point prevalence study. Lancet Infect Dis2011; 11: 355362.
  • 2
    Kumarasamy KK, Toleman MA, Walsh TR et al. Emergence of a new antibiotic resistance mechanism in India, Pakistan, and the UK: a molecular, biological, and epidemiological study. Lancet Infect Dis2010; 10: 597602.
  • 3
    Walsh TR. Emerging carbapenemases: a global perspective. Int J Antimicrob Agents2010; 36 (Suppl 3): S8S14.
  • 4
    Nordmann P, Poirel L, Walsh TR, Livermore DM. The emerging NDM carbapenemases. Trends Microbiol2011; 19: 588595.
  • 5
    Karthikeyan K, Thirunarayan MA, Krishnan P. Coexistence of blaOXA-23 with blaNDM-1 and armA in clinical isolates of Acinetobacter baumannii from India. J Antimicrob Chemother2010; 65: 22532254.
  • 6
    Espinal P, Fugazza G, Lopez Y et al. Dissemination of an NDM-2-producing Acinetobacter baumannii clone in an Israeli Rehabilitation Center. Antimicrob Agents Chemother2011; 55: 53965398.
  • 7
    Kaase M, Nordmann P, Wichelhaus TA, Gatermann SG, Bonnin RA, Poirel L. NDM-2 carbapenemase in Acinetobacter baumannii from Egypt. J Antimicrob Chemother2011; 66: 12601262.
  • 8
    Pfeifer Y, Wilharm G, Zander E et al. Molecular characterization of blaNDM-1 in an Acinetobacter baumannii strain isolated in Germany in 2007. J Antimicrob Chemother2011; 66: 19982001.
  • 9
    Chen Y, Zhou Z, Jiang Y, Yu Y. Emergence of NDM-1-producing Acinetobacter baumannii in China. J Antimicrob Chemother2011; 66: 12551259.
  • 10
    Poirel L, Schrenzel J, Cherkaoui A, Bernabeu S, Renzi G, Nordmann P. Molecular analysis of NDM-1-producing enterobacterial isolates from Geneva, Switzerland. J Antimicrob Chemother2011; 66: 17301733.
  • 11
    Sole M, Pitart C, Roca I et al. First description of an Escherichia coli strain producing NDM-1 carbapenemase in Spain. Antimicrob Agents Chemother2011; 55: 44024404.
  • 12
    Ghazawi A, Sonnevend A, Bonnin RA et al. Ndm-2 carbapenemase-producing Acinetobacter baumannii in the United Arab Emirates. Clin Microbiol Infect2012; 18: E34E36.
  • 13
    Toleman MA, Spencer J, Jones L, Walsh TR. blaNDM-1 is a chimera, likely constructed in Acinetobacter baumanii. Antimicrob Agents Chemother2012; 56: 27732776.
  • 14
    Poirel L, Bonnin RA, Boulanger A, Schrenzel J, Kaase M, Nordmann P. Tn125-related acquisition of blandm-like genes in Acinetobacter baumannii. Antimicrob Agents Chemother2012; 56: 10871089.
  • 15
    Hu H, Hu Y, Pan Y et al. Novel plasmid and its variant harboring both blaNDM-1 gene and type IV secretion system in clinical isolates of Acinetobacter lwoffii. Antimicrob Agents Chemother2012; 56: 16981702.
  • 16
    Boo TW, Walsh F, Crowley B. Molecular characterization of carbapenem-resistant acinetobacter species in an Irish University Hospital: predominance of acinetobacter genomic species 3. J Med Microbiol2009; 58: 209216.
  • 17
    Houang ET, Chu YW, Leung CM et al. Epidemiology and infection control implications of Acinetobacter spp. in Hong Kong. J Clin Microbiol2001; 39: 228234.
  • 18
    Chu YW, Leung CM, Houang ET et al. Skin carriage of acinetobacters in Hong Kong. J Clin Microbiol1999; 37: 29622967.
  • 19
    Gerner-Smidt P, Tjernberg I, Ursing J. Reliability of phenotypic tests for identification of acinetobacter species. J Clin Microbiol1991; 29: 277282.
  • 20
    Nemec A, Krizova L, Maixnerova M et al. Genotypic and phenotypic characterization of the Acinetobacter calcoaceticusAcinetobacter baumannii complex with the proposal of Acinetobacter pittii sp. Nov. (formerly acinetobacter genomic species 3) and Acinetobacter nosocomialis sp. Nov. (formerly acinetobacter genomic species 13tu). Res Microbiol2011; 162: 393404.
  • 21
    Chang HC, Wei YF, Dijkshoorn L, Vaneechoutte M, Tang CT, Chang TC. Species-level identification of isolates of the Acinetobacter calcoaceticusAcinetobacter baumannii complex by sequence analysis of the 16S–23S rRNA gene spacer region. J Clin Microbiol2005; 43: 16321639.
  • 22
    Meng X, Dong M, Wang DI et al. Antimicrobial susceptibility patterns of clinical isolates of gram-negative bacteria obtained from intensive care units in a tertiary hospital in Beijing, China. J Chemother2011; 23: 207210.
  • 23
    Chen Y, Cui Y, Pu F et al. Draft genome sequence of an acinetobacter genomic species 3 strain harboring a bla(NDM-1) gene. J Bacteriol2012; 194: 204205.
  • 24
    Zhou Z, Guan R, Yang Y et al. Identification of new delhi metallo-beta-lactamase gene (NDM-1) from a clinical isolate of Acinetobacter junii in China. Can J Microbiol2012; 58: 112115.
  • 25
    Wang Y, Wu C, Zhang Q et al. Identification of new delhi metallo-beta-lactamase 1 in Acinetobacter lwoffii of food animal origin. PLoS ONE2012; 7: e37152.
  • 26
    Fu Y, Du X, Ji J, Chen Y, Jiang Y, Yu Y. Epidemiological characteristics and genetic structure of blaNDM-1 in non-baumannii Acinetobacter spp. in China. J Antimicrob Chemother2012; 67: 21142122.
  • 27
    Prashanth K, Badrinath S. Simplified phenotypic tests for identification of Acinetobacter spp. and their antimicrobial susceptibility status. J Med Microbiol2000; 49: 773778.
  • 28
    La Scola B, Gundi VA, Khamis A, Raoult D. Sequencing of the rpob gene and flanking spacers for molecular identification of acinetobacter species. J Clin Microbiol2006; 44: 827832.
  • 29
    Woodford N, Ellington MJ, Coelho JM et al. Multiplex PCR for genes encoding prevalent OXA carbapenemases in Acinetobacter spp. Int J Antimicrob Agents2006; 27: 351353.
  • 30
    Mendes RE, Kiyota KA, Monteiro J et al. Rapid detection and identification of metallo-beta-lactamase-encoding genes by multiplex real-time PCR assay and melt curve analysis. J Clin Microbiol2007; 45: 544547.
  • 31
    CLSI. Performance standards for antimicrobial susceptibility testing; twenty-second informational supplement (m100-s22). Clin Lab Stand Inst, 940 West Valley Road, Suite 1400, Wayne, Pennsylvania 19087–1898 USA 2012; 32: 6465.
  • 32
    Hamouda A, Evans BA, Towner KJ, Amyes SG. Characterization of epidemiologically unrelated Acinetobacter baumannii isolates from four continents by use of multilocus sequence typing, pulsed-field gel electrophoresis, and sequence-based typing of bla(OXA-51-like) genes. J Clin Microbiol2010; 48: 24762483.
  • 33
    Aziz RK, Bartels D, Best AA et al. The RAST server: rapid annotations using subsystems technology. BMC Genomics2008; 9: 75.
  • 34
    McGinnis S, Madden TL. BLAST: at the core of a powerful and diverse set of sequence analysis tools. Nucleic Acids Res2004; 32: W20W25.
  • 35
    Bertini A, Poirel L, Mugnier PD, Villa L, Nordmann P, Carattoli A. Characterization and PCR-based replicon typing of resistance plasmids in Acinetobacter baumannii. Antimicrob Agents Chemother2010; 54: 41684177.
  • 36
    Rieck B, Tourigny DS, Crosatti M et al. Acinetobacter insertion sequence ISAba11 belongs to a novel family that encodes transposases with a signature HHEK motif. Appl Environ Microbiol2012; 78: 471480.
  • 37
    Smith MG, Gianoulis TA, Pukatzki S et al. New insights into Acinetobacter baumannii pathogenesis revealed by high-density pyrosequencing and transposon mutagenesis. Genes Dev2007; 21: 601614.
  • 38
    Allen KD, Green HT. Hospital outbreak of multi-resistant acinetobacter anitratus: an airborne mode of spread?J Hosp Infect1987; 9: 110119.
  • 39
    Bernards AT, Frenay HM, Lim BT, Hendriks WD, Dijkshoorn L, van Boven CP. Methicillin-resistant Staphylococcus aureus and Acinetobacter baumannii: an unexpected difference in epidemiologic behavior. Am J Infect Control1998; 26: 544551.
  • 40
    Xie X, Li Y, Zhang T, Fang HH. Bacterial survival in evaporating deposited droplets on a teflon-coated surface. Appl Microbiol Biotechnol2006; 73: 703712.
  • 41
    Xiao YH, Giske CG, Wei ZQ, Shen P, Heddini A, Li LJ. Epidemiology and characteristics of antimicrobial resistance in China. Drug Resist Updat2011; 14: 236250.
  • 42
    Bonomo RA. New Delhi metallo-beta-lactamase and multidrug resistance: a global SOS?Clin Infect Dis2011; 52: 485487.
  • 43
    Moffatt JH, Harper M, Adler B, Nation RL, Li J, Boyce JD. Insertion sequence ISAba11 is involved in colistin resistance and loss of lipopolysaccharide in Acinetobacter baumannii. Antimicrob Agents Chemother2011; 55: 30223024.