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    Comparison of four phenotypic assays and check-direct CPE for detection of carbapenemases-producing enterobacterales
    (Verlag Klinisches Labor GmbH, 2021) Abulaila, Ayham; Erdem, Fatma; Öncül, Oral; Aktaş, Zerrin
    Background: Early and accurate detection of carbapenemase-producing Enterobacterales (CPE) is fundamental to prevent their spread in hospital environment. Our objective was to compare between four commonly used phenotypic assays and Check-Direct CPE (CDCPE) multiplex PCR in CPE detection. We examined stool samples or rectal swabs for CPE, samples collected from 23 Jan 2017 to 23 Jul 2017 from patients in intensive-care units (ICUs) of our hospital. Methods: A panel of 98 non-repetitive Enterobacterales isolates with reduced susceptibility to carbapenems were analyzed by means of (i) Modified Hodge Test (MHT), (ii) Blue Carba test (BCT), (iii) Combined Disc Test (CDT), and (iv) The Carbapenem Inactivation Method (CIM). All these phenotypic tests compared with CDCPE. Confirmation and validation of results was achieved by classical PCR and sequencing. Results: Of the 98 non-repetitive Enterobacterales isolates, ninety-one were K. pneumoniae (93%), three K. oxytoca (3%), three E. cloacae (3%) and one E. coli (1%). By classic PCR the carbapenem resistance genes in K. pneumoniae isolates distributed as the followings; 49 blaOXA-48, 34 both blaOXA-48 and blaNDM-1, seven blaNDM-1 and one blaKPC. K. oxytoca; two blaOXA-48, one blaNDM-1. E. cloacae; two blaOXA-48, one blaNDM-1. E. coli; one isolate with both blaOXA-48 and blaNDM-1. The most common carbapenemase gene detected was blaOXA-48 rate of 54% (n = 53) followed by a combination of both blaOXA-48 and blaNDM-1 with rate of 36% (n = 35), only blaNDM-1 9% (n = 9) and blaKPC 1% (n = 1). Among phenotypic tests, we found CIM, MHT, and BCT correctly identified carbapenemase producers with sensitivity of 100%, 98%, and 90.8%, respectively. Conclusions: Rapid and accurate detection of CRE can be achieved by combination of both phenotypic and molecular tests. Surveillance studies are important both in terms of epidemiology and regulation of the treatment of patients. © 2021 Verlag Klinisches Labor GmbH. All rights reserved.
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    Time kill-assays of antibiotic combinations for multidrug resistant clinical isolates of OXA-48 carbapenemase producing Klebsiella pneumoniae
    (AkJournals, 2022) Erdem, Fatma; Díez-Aguilar, María; Öksüz, Lütfiye; Kayacan,Çiğdem; Abulaila, Ayham; Öncül, Oral; Morosini, María Isabel; Cantón, Rafael; Aktaş, Zerrin
    Treatment of infections caused by OXA-48 carbapenemase producing multidrug-resistant isolates often necessitates combination therapy. In vitro effect of different antibiotic combinations against multidrug-resistant (MDR) Klebsiella pneumoniae isolates were evaluated in this study. Meropenem-tobramycin (MER+TOB), meropenem-ciprofloxacin (MER+CIP), colistin-meropenem (COL+MER), colistin-ciprofloxacin (COL+CIP) and colistin-tobramycin (COL+TOB) combinations were tested by time kill-assays. Each antibiotic alone and in combination at their Cmax values were tested against 4 clinical K. pneumoniae isolates at 1, 2, 4, 6, 8, 12 and 24 h. Effect of colistin and its associations were also assessed at 30 min. Bactericidal activity was defined as ?3log10 CFU mL-1 decrease compared with initial inoculum. Synergy was defined as ?2log10CFU mL-1 decrease by the combination compared with the most active single agent. Presence of bla OXA-48, bla NDM, bla VIM, bla IMP, bla KPC and bla CTX-M-1 genes was screened by PCR using specific primers. The bla OXA-48 gene was identified together with bla CTXM-1 group gene in all isolates. COL+MER demonstrated to be synergistic and bactericidal. MER+TOB showed synergistic and bactericidal effect on two strains although, regrowth was seen on other two strains at 24 h. MER+CIP exhibited indifferent effect on the strains. Combination therapy could be a potential alternative to treat MDR K. pneumoniae infections. This combination might prevent resistance development and secondary effects of colistin monotherapy. MER+TOB and MER+CIP might have an isolate-dependent effect, that may not always result in synergism