Evaluation of a colorimetric test for the rapid detection of carbapenemase activity in Gram negative bacilli: the MAST® PAcE test.

The MAST® Carba PAcE test is a colorimetric test used to detect carbapenemase-producing Gram-negative bacilli from cultured colonies. The performances of this test were compared to ß-CARBA™, Carba NP test and RAPIDEC® CARBA NP tests using a collection of 280 characterized isolates. Sensitivity and specificity of the MAST® Carba PAcE test were 79.8% (95%IC: 73.3%-85.1%) and 98.9% (95%IC: 92.9%-99.9%). The MAST® Carba PAcE sensitivity was the lowest mainly due to interpretation difficulties (particularly OXA-48-like).

Polyclonal Dissemination of NDM-1- and NDM-9-Producing Escherichia coli and Klebsiella pneumoniae in French Polynesia.

The whole-genome sequencing analysis revealed a polyclonal dissemination of NDM-1 and NDM-9 variants in Escherichia coli (n = 20) and Klebsiella pneumoniae (n = 2) in Tahiti since 2015 via interspecies transfer of three different blaNDM-carrying plasmids (IncR, IncHI2, and IncF) and patient-to-patient cross-transmission. It highlights the potential risk of importation of NDM producers in France, where French Polynesia is not considered stricto sensu a foreign country from which repatriated patients have to be screened.

Optimization of the rapid carbapenem inactivation method for use with AmpC hyperproducers.

OBJECTIVES: Detection of carbapenemase-producing Enterobacterales (CPEs) is sometimes difficult with AmpC-hyperproducing Enterobacterales (AHEs), as they may falsely be classified as CPEs. Here, we present a rapid Carbapenem Inactivation Method (rCIM) optimized for AmpC producers (rCIM-A) that allows rapid and easy discrimination between AHEs and CPEs. METHODS: Enterobacterales (n = 249), including natural AmpC producers, AHEs, CPEs and non-carbapenemase-producing carbapenem-resistant control strains were evaluated, using Carba NP, rCIM and rCIM-A. The rCIM-A differs from the rCIM by the addition of cloxacillin (400 µg/mL) to the initial antibiotic incubation step. RESULTS: The rCIM-A yielded a sensitivity and specificity of 84.26% (95% CI: 76.00%-90.55%) and 99.29% (95% CI: 96.11%-99.98%), respectively, while those of the rCIM were 86.11% (95% CI: 78.13%-92.01%) and 80.85% (95% CI: 73.38%-86.99%), respectively; those of Carba NP were lower at 84.04% (95% CI: 75.05%-90.78%) and 91.37% (95% CI: 85.41%-95.46%), respectively, due to indeterminate results. The rCIM-A was capable of discriminating between AHEs and true CPEs, but still failed to identify OXA-23-producing Proteus mirabilis isolates and remained only partially reliable for identifying IMI-like producers and a few MBL (2 NDM-1, 1 LMB-1, 1 TMB-1 and 1 IMP-13) producers. One chromosomally encoded AmpC variant, MIR-10, gave repeatedly positive results using all three tests and was thus considered a false positive. CONCLUSIONS: Specificity for AHEs greatly improved with the rCIM-A without altering the test performance for the other resistance mechanisms. It may replace the rCIM as a cheap, easy, rapid and accurate CPE detection test.

First Occurrence of the OXA-198 Carbapenemase in Enterobacterales.

A carbapenem-resistant Citrobacter sp. was recovered from routine screening of multidrug-resistant bacteria. This isolate coproduced OXA-48 and OXA-198. OXA-48 was carried by the prototypical IncL plasmid, whereas OXA-198 was carried by a peculiar IncHI-type plasmid. This carbapenemase gene was inserted within a class 1 integron located on a conjugative plasmid. This report describes the first occurrence of OXA-198 in Enterobacterales.

False-Positive Carbapenem-Hydrolyzing Confirmatory Tests Due to ACT-28, a Chromosomally Encoded AmpC with Weak Carbapenemase Activity from Enterobacter kobei.

In Enterobacter cloacae complex (ECC), the overproduction of the chromosome-encoded cephalosporinase (cAmpC) associated with decreased outer membrane permeability may result in carbapenem resistance. In this study, we have characterized ACT-28, a cAmpC with weak carbapenemase activity, from a single Enterobacter kobei lineage. ECC clinical isolates were characterized by whole-genome sequencing (WGS), susceptibility testing, and MIC, and carbapenemase activity was monitored using diverse carbapenem hydrolysis methods. ACT-28 steady-state kinetic parameters were determined. Among 1,039 non-carbapenemase-producing ECC isolates with decreased susceptibility to carbapenems received in 2016-2017 at the French National Reference Center for antibiotic resistance, only 8 had a positive carbapenemase detection test (Carba NP). These eight ECC isolates were resistant to broad-spectrum cephalosporins due to AmpC derepression, showed decreased susceptibility to carbapenems, and were categorized as carbapenemase-producing Enterobacteriaceae (CPE) according to several carbapenemase detection assays. WGS identified a single clone of E. kobei ST125 expressing only its cAmpC, ACT-28. The blaACT-28 gene was expressed in a wild-type and in a porin-deficient Escherichia coli background and compared to the blaACT-1 gene. Detection of carbapenemase activity was positive only for E. coli expressing the blaACT-28 gene. Kinetic parameters of purified ACT-28 revealed a slightly increased imipenem hydrolysis compared to that of ACT-1. In silico porin analysis revealed the presence of a peculiar OmpC-like protein specific to E. kobei ST125 that could impair carbapenem influx into the periplasm and thus enhance carbapenem-resistance caused by ACT-28. We described a widespread lineage of E. kobei ST125 producing ACT-28, with weak carbapenemase activity that can lead to false-positive detection by several biochemical and phenotypic diagnostic tests.

Diversity of Carbapenemase-Producing Escherichia coli Isolates in France in 2012-2013.

With the dissemination of carbapenemase-producing Enterobacteriaceae (CPE) strains worldwide, carbapenem-hydrolyzing enzymes are increasingly reported among isolates of Escherichia coli, the first hospital and community-acquired opportunistic pathogen. Here, we have performed an epidemiological survey of carbapenemase-producing E. coli (CP-Ec) isolates received at the French National Reference Centre (F-NRC) in 2012 and 2013. Antimicrobial susceptibilities for last-resort antibiotics and antimicrobial compounds commonly used to treat urinary tract infections were determined by broth microdilution. Clonal relationship was assessed using repetitive sequence-based PCR (rep-PCR) and multilocus sequence typing (MLST). From this collection of 140 carbapenemase-producing E. coli isolates, 74% produced an OXA-48-like carbapenemase and 21% produced an NDM carbapenemase. A link with a foreign country was suspected for 37% of infected/colonized patients. Most of the isolates were from screening (56%) and from urine samples (26%). Colistin, fosfomycin, and nitrofurantoin possessed the most consistent activity, with 100%, 95%, and 96% isolates susceptible, respectively. A wide diversity of carbapenemase-producing E. coli isolates has been found (50 different sequence types [STs]). The most prevalent clones were (i) E. coli sequence type 38 (ST38) producing OXA-48 (n = 21), a clone linked to Turkey and North African countries, (ii) E. coli ST-90 producing OXA-204 (n = 9), which was responsible for an outbreak related to a contaminated duodenoscope, and (iii) E. coli ST-410 producing OXA-181 (n = 5), which was recovered from patients of different geographical origins. These specific clones might be considered high-risk clones for the dissemination of carbapenemases in E. coli The wide diversity of STs, combined with the increasing number of CP-Ec isolates received by the F-NRC, suggests a likely dissemination of CP-Ec isolates in the community.

Genomic Insights into Colistin-Resistant Klebsiella pneumoniae from a Tunisian Teaching Hospital.

The emergence of colistin-resistant Klebsiella pneumoniae (CoRKp) is a public health concern, since this antibiotic has become the last line of treatment for infections caused by multidrug-resistant (MDR) Gram negatives. In this study, we have investigated the molecular basis of colistin resistance in 13 MDR K. pneumoniae strains isolated from 12 patients in a teaching hospital in Sousse, Tunisia. Whole-genome sequencing (WGS) was used to decipher the molecular mechanism of colistin resistance and to identify the resistome of these CoRKp isolates. It revealed a genome of ca. 5.5 Mbp in size with a G+C content of 57%, corresponding to that commonly observed for K. pneumoniae These isolates belonged to the 5 different sequence types (ST11, ST15, ST101, ST147, and ST392), and their resistome was composed of acquired ß-lactamases, including extended-spectrum beta-lactamase and carbapenemase genes (blaCTX-M-15, blaOXA-204, blaOXA-48, and blaNDM-1 genes), aminoglycoside resistance genes [aac(6')Ib-cr, aph(3″)-Ib, aph(6)-Id, and aac(3)-IIa], and fosfomycin (fosA), fluoroquinolone (qnr-like), chloramphenicol, trimethoprim, and tetracycline resistance genes. All of the isolates were identified as having a mutated mgrB gene. Mapping reads with reference sequences of the most common genes involved in colistin resistance revealed several modifications in mgrB, pmr, and pho operons (deletions, insertions, and substitutions) likely affecting the function of these proteins. It is worth noting that among the 12 patients, 10 were treated with colistin before the isolation of CoRKp No plasmid encoding mcr-1 to mcr-5 genes was found in these isolates. This study corresponds to the first molecular characterization of a collection of CoRKp strains in Tunisia and highlights that the small-transmembrane protein MgrB is a main mechanism for colistin resistance in K. pneumoniae.

Evaluation of the rapid carbapenem inactivation method (rCIM): a phenotypic screening test for carbapenemase-producing Enterobacteriaceae.

Objectives: Fast and accurate diagnostic tests to identify carbapenemase-producing Enterobacteriaceae (CPE) are mandatory for proper antimicrobial therapy and implementing infection control measures. Here, we have developed a rapid Carbapenem Inactivation Method (rCIM) for CPE detection. Methods: The rCIM consists of the incubation of a potential carbapenemase producer with meropenem discs and use of the resulting supernatant to challenge a susceptible indicator strain. Growth of the indicator strain is monitored using a nephelometer. The performances of the rCIM were compared with the CIM and Carba NP tests using a collection of 113 well-characterized carbapenem-resistant enterobacterial isolates, including 85 carbapenemase producers and 28 non-carbapenemase producers. In addition, rCIM was compared with the Carba NP test and PCR sequencing in a prospective analysis of 101 carbapenem-resistant enterobacterial isolates addressed to the French National Reference Center for Antimicrobial Resistance in July 2017. Results and discussion: The rCIM correctly identified 84/85 carbapenemase producers and 28/28 non-carbapenemase producers, yielding a sensitivity of 99% and a specificity of 100%, slightly higher than the CIM and Carba NP test. In the prospective validation study, the rCIM showed a sensitivity and specificity of 97% and 95%, respectively. Two cephalosporinase-hyperproducing Enterobacter cloacae gave false-positive results, whereas an IMI-17-producing Enterobacter asburiae gave a false-negative result. The result was, however, positive when the isolate was grown on selective antibiotic-containing media. Conclusions: The rCIM is a rapid (less than 3 h), cheap and accurate test for the detection of CPEs, which can be implemented in low-resource settings, making it a useful tool for microbiology laboratories.

Real-time PCR for detection of blaOXA-48 genes from stools.

OBJECTIVES: Outbreaks of OXA-48-like carbapenemase producers are increasingly reported in many European countries and are often the result of difficulties in detection, especially for isolates with MICs of carbapenems that remain in the susceptibility range. METHODS: An in-house real-time quantitative PCR (qPCR) assay using TaqMan chemistry to detect bla(OXA-48-like) genes was compared with bacterial culturing on ChromID ESBL and SUPERCARBA media of spiked stool samples with several species producing OXA-48 variants. RESULTS: qPCR amplification using plasmid DNA was linear over 10 log dilutions (r(2) = 0.998 and slope = -3.14), with an amplification efficiency of 1.10, and the detection limit of the assay was reproducibly estimated at 10 plasmid molecules/PCR. No cross-reaction was detected with DNA extracted from several multidrug-resistant bacteria harbouring other ß-lactam resistance genes. The bla(OXA-48) qPCR assay was capable of detecting 10-50 cfu of OXA-48 producers/100 mg of faeces. ChromID ESBL was capable of detecting OXA-48 producers (1 × 10(1) to 3 × 10(2) cfu/100 mg of faeces), as long as the isolates exhibited a high level of resistance to cephalosporins due to an associated extended-spectrum ß-lactamase. The SUPERCARBA screening medium was capable of detecting all the OXA-48-like producers (1-3 × 10(1) cfu/100 mg of faeces), except those producing OXA-163, a variant lacking carbapenem-hydrolysing activity. CONCLUSIONS: The qPCR is likely to shorten the time for bla(OXA-48) detection from 48 to 4 h and will be a valuable tool for outbreak follow-up in order to rapidly isolate colonized patients and assign them to cohorts.

Evaluation of the BD MAX Check-Points CPO Assay for the Detection of Carbapenemase Producers Directly from Rectal Swabs.

A novel real-time multiplex PCR assay, BD MAX Check-Points CPO, was evaluated to detect carbapenemase-producing organisms in clinical settings on the BD MAX system. A total of 175 well-characterized isolates (including 123 carbapenemase producers) and 128 rectal swab specimens (including 83 positives) of patients considered at high risk for carriage of carbapenemase producers were included. Bacterial suspensions were used to spike true-negative rectal swabs to mimic a clinical sample. Sample (50 µL), containing either the spiked or the patient's sample, was processed. The BD MAX Check-Points CPO assay detected carbapenemases KPC, VIM/IMP, NDM, and OXA-48-like producers with a high sensitivity and specificity of 97.1% and 98.8%, respectively. Rare variants of the IMP type (IMP-11, IMP-13, and IMP-14) and one rare and distantly related OXA-48 variant (OXA-535) remained undetected. With patients' rectal swabs, sensitivity and specificity were 92.8% and 97.8%, respectively. Failure of detection was due to weak inoculum. The time to result was short: approximately. 2.5 hours for 12 samples (including extraction and PCR). The automated sample-in results-out platform is an efficient, quick, and easy-to-use tool for the detection of the main five carbapenemases. The lack of distinction between producers of VIM and IMP may be limiting in countries where these enzymes are widespread, as in Asia, but not in France, where IMP producers are extremely rare.

Development and validation of a multiplex polymerase chain reaction assay for detection of the five families of plasmid-encoded colistin resistance.

Plasmid-mediated colistin resistance is increasingly described worldwide in Enterobacteriaceae from animal and human isolates. Diffusion of these resistance traits among carbapenem-resistant enterobacterial isolates is of particular concern as colistin has become the last resort antibiotic for treating human infections with these organisms. Therefore, being able to monitor the presence of these transferable colistin resistance genes (mcr-1 to mcr-5-variants) is crucial. This paper describes the development of a multiplex polymerase chain reaction (PCR) protocol for detection of all currently known transferable colistin resistance genes in Enterobacteriaceae. Five primer pairs were designed to amplify mcr-1, mcr-2, mcr-3, mcr-4 and mcr-5 gene products in a multiplex PCR. This assay was validated retrospectively on colonies of 50 Escherichia coli, 44 Klebsiella pneumoniae and 12 Salmonella enterica isolates of animal and human origin, all well characterized, and validated prospectively on 450 carbapenem-resistant enterobacterial isolates received by the French National Reference Centre. In addition, 82 Aeromonas spp. and 10 Shewanella spp. known to be the progenitors of mcr-3 and mcr-4 alleles, respectively, were screened. Mcr-multiplex PCR assay displayed 100% specificity, sensitivity, negative predictive value and positive predictive value. The assay was able to detect all variants of the different mcr alleles, and was able to detect chromosomally encoded mcr-4-like variants present in two Shewanella bicestrii JAB-1 and Shewanella woodyi S539. In conclusion, a rapid and robust multiplex PCR assay able to detect all known mcr gene families described in Enterobacteriaceae was developed and validated. This type of test is critical for the epidemiological surveillance of plasmid-encoded resistance, especially in carbapenem-resistant bacteria.