Kristin Hegstad scite author profile

Quaternary ammonium compounds (QACs) are widely used biocides that possess antimicrobial effect against a broad range of microorganisms. These compounds are used for numerous industrial purposes, water treatment, antifungal treatment in horticulture, as well as in pharmaceutical and everyday consumer products as preserving agents, foam boosters, and detergents. Resistance toward QACs is widespread among a diverse range of microorganisms and is facilitated by several mechanisms such as modifications in the membrane composition, expression of stress response and repair systems, or expression of efflux pump genes. Development of resistance in both pathogenic and nonpathogenic bacteria has been related to application in human medicine and the food industry. QACs in cosmetic products will inevitably come into intimate contact with the skin or mucosal linings in the mouth and thus are likely to add to the selection pressure toward more QAC-resistant microorganisms among the skin or mouth flora. There is increasing evidence of coresistance and cross-resistance between QACs and a range of other clinically important antibiotics and disinfectants. Use of QACs may have driven the fixation and spread of certain resistance cassette collectors (class 1 integrons), currently responsible for a major part of antimicrobial resistance in gram-negative bacteria. More indiscriminate use of QACs such as in cosmetic products may drive the selection of further new genetic elements that will aid in the persistence and spread of antimicrobial resistance and thus in limiting our treatment options for microbial infections.

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Mobile genetic elements and their contribution to the emergence of antimicrobial resistant Enterococcus faecalis and Enterococcus faecium

Hegstad

Mikalsen

Coque

et al. 2010

Clinical Microbiology and Infection

294

226

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Mobile genetic elements (MGEs) including plasmids and transposons are pivotal in the dissemination and persistence of antimicrobial resistance in Enterococcus faecalis and Enterococcus faecium. Enterococcal MGEs have also been shown to be able to transfer resistance determinants to more pathogenic bacteria such as Staphylococcus aureus. Despite their importance, we have a limited knowledge about the prevalence, distribution and genetic content of specific MGEs in enterococcal populations. Molecular epidemiological studies of enterococcal MGEs have been hampered by the lack of standardized molecular typing methods and relevant genome information. This review focuses on recent developments in the detection of MGEs and their contribution to the spread of antimicrobial resistance in clinically relevant enterococci.

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Update on prevalence and mechanisms of resistance to linezolid, tigecycline and daptomycin in enterococci in Europe: Towards a common nomenclature

Bender

Cattoir

Hegstad

et al. 2018

Drug Resistance Updates

179

150

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Antibiotic resistant enterococci—Tales of a drug resistance gene trafficker

Werner

Coque

Franz

et al. 2013

International Journal of Medical Microbiology

151

126

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Multilevel population genetic analysis ofvanAandvanB Enterococcus faeciumcausing nosocomial outbreaks in 27 countries (1986–2012)

Freitas

Tedim

Francia

et al. 2016

J. Antimicrob. Chemother.

134

126

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Effects of Phenotype and Genotype on Methods for Detection of Extended-Spectrum-β-Lactamase-Producing Clinical Isolates ofEscherichia coliandKlebsiella pneumoniaein Norway

Tofteland¹,

Haldorsen²,

Hegstad³

et al. 2007

J Clin Microbiol

127

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Consecutive clinical isolates of Escherichia coli (n ‫؍‬87Systemic infections with extended-spectrum-␤-lactamase (ESBL)-producing Enterobacteriaceae are associated with severe adverse clinical outcomes (7,12,25). It is thus essential for a diagnostic microbiology laboratory to have updated methods for the detection of ESBL-producing strains, taking into account the local epidemiology of ESBL genotypes and their various expression profiles. As very little is known about ESBL genotypes in Norway, we designed a study for the detection and characterization of ESBL production in clinical isolates of Escherichia coli and Klebsiella pneumoniae with reduced susceptibilities to oxyimino-cephalosporins from routine diagnostic samples. More specifically, we examined (i) the abilities of different phenotypic methods to detect ESBL-producing strains in relation to MICs of oxyimino-cephalosporins, (ii) the molecular basis for ESBL production by typing of the most prevalent ␤-lactamase genes (bla TEM , bla SHV , and bla CTX-M ) and the relationships between MIC profiles for oxyimino-cephalosporins and different bla groups, and (iii) the occurrence of multiple-antibiotic resistance.(The results of this study were presented in part at the European Congress of Clinical Microbiology and Infectious Diseases, Prague, Czech Republic, 2004.) MATERIALS AND METHODSStudy design. Consecutive nonduplicate isolates of E. coli and K. pneumoniae with reduced susceptibilities to oxyimino-cephalosporins (MIC Ͼ 1 mg/liter) were collected in 18 of 24 Norwegian diagnostic microbiology laboratories covering

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Species identification and molecular characterization of Acinetobacter spp. blood culture isolates from Norway

et al. 2011

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A Silenced vanA Gene Cluster on a Transferable Plasmid Caused an Outbreak of Vancomycin-Variable Enterococci

Sivertsen

Pedersen

Larssen

et al. 2016

Antimicrob Agents Chemother

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We report an outbreak of vancomycin-variable vanA+ enterococci (VVE) able to escape phenotypic detection by current guidelines and demonstrate the molecular mechanisms for in vivo switching into vancomycin resistance and horizontal spread of the vanA cluster. Forty-eight vanA+ Enterococcus faecium isolates and one Enterococcus faecalis isolate were analyzed for clonality with pulsed-field gel electrophoresis (PFGE), and their vanA gene cluster compositions were assessed by PCR and whole-genome sequencing of six isolates. The susceptible VVE strains were cultivated in brain heart infusion broth containing vancomycin at 8 μg/ml for in vitro development of resistant VVE. The transcription profiles of susceptible VVE and their resistant revertants were assessed using quantitative reverse transcription-PCR. Plasmid content was analyzed with S1 nuclease PFGE and hybridizations. Conjugative transfer of vanA was assessed by filter mating. The only genetic difference between the vanA clusters of susceptible and resistant VVE was an ISL3-family element upstream of vanHAX, which silenced vanHAX gene transcription in susceptible VVE. Furthermore, the VVE had an insertion of IS1542 between orf2 and vanR that attenuated the expression of vanHAX. Growth of susceptible VVE occurred after 24 to 72 h of exposure to vancomycin due to excision of the ISL3-family element. The vanA gene cluster was located on a transferable broad-host-range plasmid also detected in outbreak isolates with different pulsotypes, including one E. faecalis isolate. Horizontally transferable silenced vanA able to escape detection and revert into resistance during vancomycin therapy represents a new challenge in the clinic. Genotypic testing of invasive vancomycin-susceptible enterococci by vanA-PCR is advised.

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Kristin Hegstad

Does the Wide Use of Quaternary Ammonium Compounds Enhance the Selection and Spread of Antimicrobial Resistance and Thus Threaten Our Health?

Mobile genetic elements and their contribution to the emergence of antimicrobial resistant Enterococcus faecalis and Enterococcus faecium

Update on prevalence and mechanisms of resistance to linezolid, tigecycline and daptomycin in enterococci in Europe: Towards a common nomenclature

Antibiotic resistant enterococci—Tales of a drug resistance gene trafficker

Multilevel population genetic analysis ofvanAandvanB Enterococcus faeciumcausing nosocomial outbreaks in 27 countries (1986–2012)

Effects of Phenotype and Genotype on Methods for Detection of Extended-Spectrum-β-Lactamase-Producing Clinical Isolates ofEscherichia coliandKlebsiella pneumoniaein Norway

Species identification and molecular characterization of Acinetobacter spp. blood culture isolates from Norway

A Silenced vanA Gene Cluster on a Transferable Plasmid Caused an Outbreak of Vancomycin-Variable Enterococci

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