Abstract

Multidrug-resistant (MDR) and pathogenic E. faecium is a crisis in healthcare settings. This survey aimed at antibiotic susceptibility profiling and virulence determinants of E. faecium. This study pooled 100 fecal E. faecium isolates identified by phenotypic and molecular tests. Antibiotic susceptibility and ampicillin MIC were determined according to clinical and laboratory standards institute (CLSI) 2017. Moreover, biofilm formation was assayed by a microtiter tissue plate assay. Virulence genes pattern was performed by polymerase chain reaction (PCR) method. Among 460 fecal samples, 100 isolates of E. faecium were identified, among which the highest resistance was related to penicillin (81%), cephalothin (78%), cefazolin (76%), tetracycline and cefepime (69%). In contrast, 83% of them were susceptible to vancomycin. Moreover, four vancomycin-resistant isolates had vancomycin MIC>32µg/mL, and 11 isolates had MIC>8µg/mL. Of 32 ampicillin-resistant isolates, 18 (56%) produced strong biofilm, and 14 isolates (44%) produced moderate biofilm. Among 17 vancomycin-resistant E. faecium (VREfa), 15 (88.23%) isolates produced strong biofilms, and two of them produced moderate-level biofilms, which was significantly higher than susceptible isolates (p=0.0144). The vanA (vancomycin MIC: 16-64µg/mL) and vanB (vancomycin MIC: 8-64µg/mL) genes were detected in twelve and five isolates, respectively. The rate of adhesin genes ace, esp and ebp included 68%, 97% and 82%, respectively. All the VREfa harbored the ace, esp and ebp genes. The antibiotic resistance rate of E. faecium was low. Biofilm formation was significantly different between VREfa and vancomycin-susceptible isolates but not between k9ampicillin-resistant and ampicillin-susceptible isolates. All the VREfa harbored the ace, esp and ebp genes. The virulence adhesin genes were not significantly associated with biofilm formation. Further studies are essential to appreciate better the relation between biofilm formation, drug non-susceptibility and adhesin genes. Keywords: E. faecium, antibiotic resistance, biofilm formation, virulence genes

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