Biofilm (BF) growth is believed to play a major role in the development of ventilator-associated pneumonia (VAP) in the intensive care unit. Despite concerted efforts to understand the potential ...implication of endotracheal tube (ETT)-BF dispersal, clinically relevant data are lacking to better characterize the impact of its mesostructure and microbiological singularity on the occurrence of VAP. We conducted a multicenter, retrospective observational study during the third wave of the COVID-19 pandemic, between March and May 2021. In total, 64 ETTs collected from 61 patients were included in the present BIOPAVIR study. Confocal microscopy acquisitions revealed two main morphological aspects of ETT-deposited BF: (1) a thin, continuous ribbon-shaped aspect, less likely monobacterial and predominantly associated with Enterobacter spp., Streptococcus pneumoniae or Viridans streptococci, and (2) a thicker, discontinuous, mushroom-shaped appearance, more likely characterized by the association of bacterial and fungal species in respiratory samples. The microbiological characterization of ETT-deposited BF found higher acquired resistance in more than 80% of analyzed BF phenotypes, compared to other colonization sites from the patient's environment. These findings reveal BF as a singular microbiological compartment, and are of added clinical value, with a view to future ETT-deposited BF-based antimicrobial stewardship in critically ill patients. Trial registration NCT04926493. Retrospectively registered 15 June 2021.
We isolated IMP-19-producing Pseudomonas aeruginosa from 7 patients with nosocomial infections linked to contaminated sinks in France. We showed that bla
was located on various class 1 integrons ...among 8 species of gram-negative bacilli detected in sinks: P. aeruginosa, Achromobacter xylosoxidans, A. aegrifaciens, P. putida, Stenotrophomonas maltophilia, P. mendocina, Comamonas testosteroni, and Sphingomonas sp.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, ODKLJ, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
•The cassette array dfrA14–blaVEB-1–aadB excises from the class 1 integron of IncP1.•blaVEB-1 integrates into the MDR region of SGI1 or PGI1 under antibiotic exposure.•The cassette array from IncP1 ...replaces that in the MDR region of SGI1 or PGI1 by homologous recombination.•This feature provides stability for genes conferring resistance to antibiotics of clinical importance.
We sought to integrate a VEB-1-encoding gene cassette into the integron of the MDR region of genomic islands (GIs) harboured by Proteus mirabilis strains after antibiotic exposure.
An IncP1 plasmid from Achromobacter xylosoxidans carrying the cassette array dfrA14–blaVEB-1–aadB was introduced by conjugation into five strains of P. mirabilis: PmBRI, PmABB, PmSCO and Pm2CHAMA harbouring Salmonella GI 1 and PmESC harbouring Proteus GI 1. Circular intermediates of the cassettes were amplified by PCR. blaVEB-harbouring P. mirabilis were exposed to increasing concentrations of ceftazidime each day. Presence of blaVEB-1 in the GI was assessed by PCR. The complete MDR regions were mapped and sequenced in positive clones.
Circular intermediates were detected for dfrA14 and blaVEB-1–aadB and dfrA14–blaVEB-1–aadB cassettes arrays in A. xylosoxidans, and for aadA2 in P. mirabilis. Insertion of blaVEB-1 into the GIs occurred under ceftazidime pressure. In all cases, the three cassettes from IncP1 were integrated. They replaced the cassette array of PmBRI, PmABB and PmSCO in which floRc, tet(A)G and blaPSE-1 were conserved, whereas they replaced an integron and the IS26-flanked region in Pm2CHAMA. In PmESC, they only replaced aadB, with aadA2 being conserved. blaVEB-1 integration occurred just after conjugation for Pm2CHAMA but required ceftazidime exposure for the other strains.
Homologous recombination of gene cassettes conferring resistance to clinically important antibiotics may occur under antibiotic pressure between an integron located on a plasmid and a co-resident GI. This feature participates in the acquisition, maintenance and spread of antibiotic resistance genes.
•AGI1-A is an integrative mobilisable element.•The crossover site in 18-bp att sequences is located at position 10–11 (GG).•AGI1 variants have been detected in silico in Salmonella, Vibrio, E. ...hormaechei, A. baumannii, E. coli and K. pneumoniae.•AGI backbones are divided into two groups.•The MDR region is inserted in five positions.
The objective of this study was to mobilise the Acinetobacter genomic island 1-A (AGI1-A) from Enterobacter hormaechei EclCSP2185 (E. cloacae complex) and to search for the distribution and structure of AGI1-related elements in the NCBI database. AGI1-A was transferred to Escherichia coli. Analysis of the attachment (att) sites could locate the possible recombination crossover in the att sequences at position 10–11 (GG) in the last 18 bp of trmE. In silico detection of AGI backbones in the WGS database identified AGI variants in Salmonella enterica (83 strains), Vibrio cholerae (33), E. hormaechei (12), Acinetobacter baumannii (2), most belonging to prevalent clones (ST40, ST69, ST114 and ST25, respectively), but also in E. coli (1) and Klebsiella pneumoniae (1). Two groups of backbone were identified: one similar to AGI1, the other with a short segment from a Shewanella element upstream of ORF A022. The MDR regions were inserted by transposition at the res site in four different positions ATAGG (A. baumannii), CATAG (S. enterica and V. cholerae), TAGGT (S. enterica and K. pneumoniae) and TGCAC (S. enterica) representing four different lineages. In some V. cholerae, E. hormaechei and E. coli, deletion events occurred that eliminated part of the backbone at the left junction. Analysis of the right junction identified a fifth lineage in V. cholerae and E. hormaechei (CCATA). In conclusion, based on the position of the MDR region, AGI-related elements belonged to five groups of closely related genomic islands (AGI1–AGI5), with differences in backbones that evolved independently over time.
To investigate an outbreak of extended-spectrum beta-lactamase (ESBL) producing Enterobacter cloacae that occurred in the Hematology ward (24-bed unit) of the François Mitterrand University Hospital ...(Dijon, France) between January 2011 and December 2013. The outbreak involved 43 patients (10 infected and 33 colonized).
We performed environmental analysis to detect multiresistant E. cloacae for comparison with clinical isolates (genotyping by pulsed-field gel electrophoresis and MLST as well as ESBL-typing) and determined the MICs of the quaternary ammonium compounds (QACs) alkyldimethylbenzylammonium chloride (ADBAC) and didecyldimethylammonium chloride (DDAC). A bleach-based cleaning-disinfection program was implemented in December 2012 after mechanical removal of the biofilm in all sinks.
We have detected 17 ESBL-producing E. cloacae in patients sink drains, shower drains and medical sink drains. Sequencing of the bla genes performed on 60 strains recovered from patients and environment (n = 43 clinical and n = 17 environmental) revealed that bla CTX-M15 was predominant (37 isolates) followed by bla CTX-M9 plus bla SHV-12 (20 isolates). We observed a great diversity among the isolates: 14 pulsotypes (11 STs) in clinical isolates and 9 pulsotypes (7 STs) in environmental isolates. Six pulsotypes were identical between clinical and environmental isolates. MICs of the quaternary ammonium compounds widely used for disinfection were very high in clinical and environmental isolates. Immediately after the implementation of the disinfection program we noticed a substantial fall in cases number. Our findings demonstrate the role of drains as important reservoir of ESBL-producing E. cloacae and highlight the necessity to settle drains accessible to achieve correct cleaning as well as to use disinfectant with proved activity against nosocomial pathogens.
The aim of this study, was to characterize the extended-spectrum-β-lactamases (ESBLs) producing clinical strains of Escherichia coli isolated between January 2009 and June 2012 from Algerian ...hospitals and to determine the prevalence of 16S rRNA methylase among them. Sixty-seven ESBL-producers were detected among the 239 isolates included: 52 CTX-M-15-producers, 5 CTX-M-3-producers, 5 CTX-M-1-producers, 2 CTX-M-14-producers, 2 SHV-12-producers and one TEM-167-producer. Among the ESBL-producing strains twelve harbored 16S rRNA methylase genes: 8 rmtB and 4 armA. rmtB was located on a IncFIA plasmid and armA was located either on a IncL/M or a IncFIA plasmid. RmtB-producing isolates were genotypically related and belonged to the sequence type ST 405 whereas ArmA-producing isolates belonged to ST10, ST 167, and ST 117. This first description of 16S rRNA methylases among E. coli in Algerian hospitals pointed out the necessity to establish control measures to avoid their dissemination.
Salmonella genomic island 1 (SGI1) is often encountered in antibiotic-resistant Salmonella enterica and exceptionally in Proteus mirabilis. We investigated the prevalence of SGI1-producing clinical ...isolates of P. mirabilis in our hospital (Dijon, France).
A total of 57 strains of P. mirabilis resistant to amoxicillin and/or gentamicin and/or trimethoprim/sulfamethoxazole isolated from August 2011 to February 2012 as well as 9 extended-spectrum β-lactamase (ESBL)-producing P. mirabilis from our collection were tested for the presence of SGI1 by PCR. The complete SGI1 structure from positive isolates backbone and multidrug resistance (MDR) region was sequenced.
SGI1 was detected in 7 isolates; 5 out of the 57 isolates collected during the study period (9%) and 2 out of the 9 ESBL-producing strains of our collection. The structures of the seven SGI1s were distinct. Three different backbones were identified: one identical to the SGI1 backbone from the epidemic Salmonella Typhimurium DT104, one with variations already described in SGI1-K from Salmonella Kentucky (deletion and insertion of IS1359 in the region spanning from S005 to S009) and one with a variation never detected before (deletion from S005 to S009). Six different MDR regions were identified: four simple variants containing resistance genes already described and two variants harbouring a very complex structure including regions derived from several transposons and IS26 elements with aphA1a never reported to date in SGI1.
SGI1 variants are widely distributed among P. mirabilis clinical strains and might spread to other commensal Enterobacteriaceae. This would become a serious public health problem.