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51	Entérobactéries résistantes aux carbapénèmes isolées au Nord Liban : mécanismes, support génétique et pathogénicité / Enterobacteriaceae resistant to carbapenems isolated in North Lebanon : mechanisms, genetic support and pathogenicity Beyrouthy, Racha 25 June 2014 (has links) Les carbapénèmes sont des antibiotiques de la famille des β-lactamines utilisées en dernier recours à cause de leur stabilité vis-à-vis de la plupart des mécanismes de résistance. Cependant, on assiste chez les entérobactéries à l’émergence de carbapénèmases capables d’inactiver ces molécules. Les objectives de ce travail étaient d’explorer l’émergence de ces mécanismes de résistance dans des entérobactéries isolées au Nord Liban entre 2008 et 2012, d’analyser leur support génétique, ainsi que le fond génétique et la pathogénicité des souches porteuses. Nous avons observé une augmentation d’un facteur quatre de la prévalence des entérobactéries de sensibilité diminuée ou résistantes aux carbapénèmes dans les prélèvements cliniques hospitaliers entre 2008 et 2012. Un portage intestinal a été également observé chez 1,5% des individus dans une population d’enfants issus de la communauté. Le phénotype de résistance observé était lié à la production de la carbapénèmase OXA-48. Bien que sept espèces productrices ont été identifiées, la plupart des isolats étaient des souches non-redondantes appartenant aux espèces K. pneumoniae et surtout E. coli. Le vecteur de la diffusion de OXA-48 dans ces bactéries était trois plasmides du groupe d’incompatibilité IncL/M de 49 kb, 63 kb et 84 kb. Cependant, 67% des souches E. coli portaient le gène codant OXA-48 (blaOXA-48) sur le chromosome. La caractérisation des supports génétiques par des approches de séquençage à haut débit a montré qu’ils étaient apparentés et le produit de remaniements génétiques impliquant le transposon Tn21-like, la séquence d'insertion IS1R ou un nouveau transposon composite appelé Tn6237. L’insertion chromosomique de blaOXA-48 résultait de la transposition de Tn6237 qui est capable de transférer un fragment plasmidique de 20 kb dans différents sites du chromosome de E. coli. Les souches K. pneumoniae produisant OXA-48 n’appartenaient pas aux génotypes capsulaires hautement virulents K1 et K2, mais portaient des facteurs identifiées pour favoriser la virulence ou la colonisation de l’hôte. OXA-48 a été observée dans tous les phylogroupes de E. coli, y compris les phylogroupes B2 et D connus pour contenir les souches pathogènes extra-intestinales. Une souche se distinguait par une accumulation sans précédent de huit îlots de pathogénicité. Cette souche induisait une létalité inhabituellement élevée dans un modèle murin de sepsis. En conclusion, l’acquisition du gène blaOXA-48 est donc liée à la diffusion de plasmides apparentés, qui sont marqués par une plasticité conduisant à une localisation chromosomique du gène pouvant favoriser sa persistance. Elle conduit à une diffusion multi-clonale de souches K. pneumoniae et surtout E. coli potentiellement hautement virulentes. Cette association entre de l’espèce E. coli et la carbapénèmase OXA-48 est inquiétante, car E. coli constitue à la fois un réservoir dont la taille peut être considérable et un pathogène responsable d’infections fréquentes pouvant parfois mettre en jeu le pronostic vital. / In the β-lactam family, carbapenems are the most effective antimicrobial agents used as a last resort due to their stability toward most resistance mechanisms. However, we recently observed the emergence of carbapenemase-producing Enterobacteriaceae. The aim of the present study consisted to explore (i) the epidemiological situation of carbapenem-resistant Enterobacteriaceae isolated in North Lebanon between 2008 and 2012, (ii) the identification of the resistance mechanisms, and (iii) the characterization of pathogenicity and genetic background of the corresponding strains. We observed a 4-fold increase in the prevalence of Enterobacteriaceae exhibiting decreased susceptibility or resistance to carbapenems in the clinical isolates collected at hospital during 2008-2012. The prevalence of fecal carriage of carbapenemase-producing Enterobacteriaceae was estimated to 1.5% in healthy children of the community. OXA-48 was the only carbapenemase identified among non-redundant isolates which spread to seven species. E. coli and K. pneumoniae were the main represented species. The OXA-48-encoding gene (blaOXA-48) was carried by three novel IncL/M plasmids of 49 kb, 63 kb and 84 kb. However, 67% of E. coli strains encoded blaOXA-48 chromosome-mediated. The sequencing of the previously mentioned genetic structures by high -throughput approaches showed that they are the product of genetic rearrangements involving the Tn21-like transposon, the insertion sequence IS1R and a novel composite transposon designed Tn6237. The chromosomal insertion of blaOXA-48 was due to the acquisition of element Tn6237 leading consequently to the transposition of 20 kb plasmid fragment into different sites of E. coli chromosome. The pathogenicity profile of K. pneumoniae strains showed that they did not belong to highly virulent capsular genotypes K1 and K2, but harbored factors promoting virulence and host colonization. E. coli isolates belonged to different phylogroups, including phylogroups B2 and D known to contain the extra-intestinal pathogenic strains. An E. coli strain was characterized by a broad accumulation of pathogenicity islands (n=8). In addition, this strain induced an unusually high lethality in a mouse model of sepsis. In conclusion, the acquisition of the blaOXA-48 gene is linked to the spread of related IncL/M plasmids, which are marked by a plasticity leading to a chromosomal location of blaOXA-48 and probably promoting its persistence. It leads to a multiclonal diffusion of K. pneumoniae and especially E. coli potentially highly virulent. This association between E. coli and the carbapenemase OXA-48 is worrying because E. coli represent a putative important reservoir and a pathogen agent responsible for frequent infections that can be a life threatening. Carbapénèmases Entérobactéries Génotypes Carbapenemases Enterobacteriaceae Genotypes 576
52	Hybrids of enteric bacteria. Mojica-Araque, Tobias January 1971 (has links) No description available. Salmonella typhimurium. Hybridization. Enterobacteriaceae. Escherichia coli.
53	Molecular epidemiology of carbapenem-resistant enterobacteriaceae Li, Zhen, 李珍 January 2012 (has links) Dissemination of Carbapenem-Resistant Enterobacteriaceae (CRE) has raised a new challenge for health organizations all over the world. Acquisition of carbapenemase genes is the most worrisome among these CRE isolates. This study was constructed to investigate the dissemination of CRE isolates in Hong Kong and also to characterize plasmids harboring carbapenemase genes. CRE isolates were collected from public hospitals in Hong Kong from August 2006 to June 2012. Antimicrobial susceptibility of all CRE isolates was tested using disc diffusion method. Screening of carbapenemase genes (blaNDM , blaKPC, blaIMP, blaVIM and blaOXA-48) and ESBL genes (blaCTX-M and blaSHV) were also performed. Clonal relatedness was studied by multi-locus sequence typing. Characterization of plasmids was carried out by conjugation, S1-PFGE, hybridization and plasmid replicon typing. A total of 69 CRE isolates were collected including 50 K. pneumoniae, 15 E. coli, 2 E. cloacae, 1 E. aerogenes and 1 C. freundii. Eighteen carbapenemase producing Enterobacteriaceae were isolated from different patients with travel histories among these 69 isolates. Four K. pneumoniae were detected to carry blaKPC genes on different transferable plasmids as follows: 50 kb, IncX3 plasmid (ST258); 70 kb, un-typeable plasmid (ST258); 130 kb, un-typeable plasmid (ST11) and 140 kb, un-typeable plasmid (ST11). blaIMP genes were also detected in four CRE isolates to be harbored by different plasmids or located on chromosome: ST11 K. pneumoniae (50 kb, IncN), ST1 K. pneumoniae (150 kb, IncA/C), E. cloacae (130 kb, IncN-L/M) and ST899 K. pneumoniae (chromosomal located). NDM-1 (New Delhi Metallo enzyme) producing E. coli (n = 5), K. pneumoniae (n = 2), E. aerogenes (n = 1), E. cloacae (n = 1) and C. freundii (n =1) were also found in this study. Eight of them were isolated from patients travelled to different provinces of China blaNDM-1 was found to be carried by transferable plasmids in all ten isolates: IncX3 (n = 7, 50 kb), IncL/M (n = 1, 88 kb), IncA/C2 (n = 1, 140 kb) and FIIY- FIBS (n = 1, 110kb). Six of the seven IncX3 plasmids showed identical digestion profile while the other one only had two bands different from others using Restriction fragment length polymorphism (RFLP) analysis. An IncX3 plasmid pNDM-HN380 from a K. pneumoniae strain CRE380 was completely sequenced using Genome Sequencer FLX (Roche, USA). pNDM-HN380 was a 54,035 bp circular plasmid with 52 open reading frames (ORFs). The backbone of pNDM-HN380 was identical to those previous described IncX plasmids pIncX-SHV (accession number JN247852) and pEC14_35 (accession number JN935899). The blaNDM-1 gene was carried on an ISAba125 and IS26 flanked transposon-like element. And this element except IS26 and an interrupted ISAba125 was found to be identical to pNDM-BJ01 (accession number JQ001791). In conclusion, this is the first we describe a blaNDM-1 carrying IncX3 plasmid. This IncX3 plasmid was found to be predominant in the dissemination of blaNDM-1 in China. Future study of the nationwide dissemination of carbapenemase genes and also the novel IncX3 plasmids is needed. / published_or_final_version / Microbiology / Master / Master of Philosophy Enterobacteriaceae. Drug resistance in microorganisms. Molecular epidemiology.
54	Enterobacteriaceae in the human oral cavity Sedgley, Christine Margaret. January 1995 (has links) published_or_final_version / Dentistry / Doctoral / Doctor of Philosophy Enterobacteriaceae - China - Hong Kong. Mouth - Microbiology.
55	Molecular epidemiology of extended-spectrum β-lactamase-, AmpC β-lactamase-, and carbapenemase-producing Escherichia coli and Klebsiella pneumoniae isolated in Canadian hospitals from 2007 to 2012 Denisuik, Andrew James 21 August 2013 (has links) This thesis assessed the prevalence, patterns of antibiotic resistance, and molecular characteristics of ESBL-, AmpC-, and carbapenemase-producing Escherichia coli (EC) and Klebsiella pneumoniae (KPN) isolated from Canadian hospitals. Bacterial isolates were collected as part of the CANWARD national surveillance study. The prevalence of ESBL-EC [2007: 3.4%, 2012: 7.6%], AmpC-EC [2007: 0.7%, 2012: 2.2%], and ESBL-KPN [2007: 1.5%, 2012: 3.6%] increased between 2007 and 2012. Antimicrobials demonstrating the greatest activity against isolates in this study were colistin, amikacin, ertapenem, and meropenem, while 78.8%, 34.9%, and 66.7% of ESBL-EC, AmpC-EC, and ESBL-KPN, respectively, were multidrug resistant. Isolates were generally unrelated by PFGE; however, ST-131 was identified among 56.9% and 31.7% of ESBL-EC and AmpC-EC, respectively. CTX-M-15 was the dominant genotype in ESBL-EC (66.5%) and ESBL-KPN (48.1%), while the dominant genotype in AmpC-EC was CMY-2 (53.2%). Carbapenemase production was identified in 0.03% of EC and 0.05% of KPN, all of which produced KPC-3. Beta-lactamases Escherichia coli Enterobacteriaceae Canada
56	Prevalence of extended-spectrum β-lactamase-producing Enterobacteriaceae with focus on the molecular characterization of ESBL- and AmpC β-lactamase- producing Escherichia coli isolated in Canadian hospitals from 2005-2009 Simner, Patricia Jeanne 23 February 2011 (has links) The spread of resistance to the cephalosporins in the Enterobacteriaceae and more specifically within E. coli is a continuing cause of public health concern, with such resistance increasingly seen in community- and nosocomial-acquired infections. Extended-spectrum ß-lactamase (ESBL) and AmpC ß-lactamase (AmpC) enzymes cause most cephalosporin resistance in E. coli by hydrolysis of the antimicrobial and continue to jeopardize patient outcome. The purpose of this thesis was to determine the prevalence of ESBL-producing Enterobacteriaceae and to molecularly characterize ESBL and AmpC producers found to be associated with the increasing cephalosporin resistance among E. coli within Canadian hospitals from 2005 to 2009. Isolates were collected as part of the Canadian Intensive Care Unit and Canadian Ward surveillance studies. ESBL and AmpC producers were molecularly characterized for resistance genes, virulence factors and phylogenetic groups. All strains were typed using PFGE and ESBL-producing E. coli were further typed by MLST. Plasmids bearing the ESBL and AmpC genes were characterized by BglII RFLP analysis and a multiplex PCR for replicon typing. ESBL-producing E. coli and K. pneumoniae and AmpC-producing E. coli were found to be firmly established in Canadian hospitals; whereas, ESBL-producing K. oxytoca and P. mirabilis have yet to emerge. Increasing resistance to several unrelated antimicrobials leading to multi-drug resistance among these pathogens is concerning. The successful dissemination of ESBL-producing E. coli in Canada occurs through a diversity of different mechanisms and does not correspond to a single ESBL determinant, or a single clone, or a single plasmid but rather through the combination of clonal spread of virulent strains and the acquisition of diverse ESBL-bearing plasmids. However, the predominance of CTX-M-15-producing E. coli in this study was mainly due to the virulent ST131 clone and the diverse IncFII plasmids bearing the blaCTX-M-15 gene. Whereas, horizontal transfer of genetically similar IncI1, IncA/C and IncK/B plasmids bearing blaCMY-2 and the clonal spread of virulent strains, including ST131 with ampC promoter/attenuator mutations, appears to be playing a role in the spread of AmpC-producing E. coli isolates in Canadian hospitals. The increasing prevalence of these multi-drug resistant pathogens in Canadian hospitals demonstrates the need for increased surveillance and understanding of these emerging pathogens. The continued surveillance will help guide proper infection control procedures and identify optimal treatment of these clinically important pathogens in Canadian hospitals. Beta-Lactamases Escherichia coli Canada Enterobacteriaceae
57	Molecular epidemiology of extended-spectrum β-lactamase-, AmpC β-lactamase-, and carbapenemase-producing Escherichia coli and Klebsiella pneumoniae isolated in Canadian hospitals from 2007 to 2012 Denisuik, Andrew James 21 August 2013 (has links) This thesis assessed the prevalence, patterns of antibiotic resistance, and molecular characteristics of ESBL-, AmpC-, and carbapenemase-producing Escherichia coli (EC) and Klebsiella pneumoniae (KPN) isolated from Canadian hospitals. Bacterial isolates were collected as part of the CANWARD national surveillance study. The prevalence of ESBL-EC [2007: 3.4%, 2012: 7.6%], AmpC-EC [2007: 0.7%, 2012: 2.2%], and ESBL-KPN [2007: 1.5%, 2012: 3.6%] increased between 2007 and 2012. Antimicrobials demonstrating the greatest activity against isolates in this study were colistin, amikacin, ertapenem, and meropenem, while 78.8%, 34.9%, and 66.7% of ESBL-EC, AmpC-EC, and ESBL-KPN, respectively, were multidrug resistant. Isolates were generally unrelated by PFGE; however, ST-131 was identified among 56.9% and 31.7% of ESBL-EC and AmpC-EC, respectively. CTX-M-15 was the dominant genotype in ESBL-EC (66.5%) and ESBL-KPN (48.1%), while the dominant genotype in AmpC-EC was CMY-2 (53.2%). Carbapenemase production was identified in 0.03% of EC and 0.05% of KPN, all of which produced KPC-3. Beta-lactamases Escherichia coli Enterobacteriaceae Canada
58	Prevalence of extended-spectrum β-lactamase-producing Enterobacteriaceae with focus on the molecular characterization of ESBL- and AmpC β-lactamase- producing Escherichia coli isolated in Canadian hospitals from 2005-2009 Simner, Patricia Jeanne 23 February 2011 (has links) The spread of resistance to the cephalosporins in the Enterobacteriaceae and more specifically within E. coli is a continuing cause of public health concern, with such resistance increasingly seen in community- and nosocomial-acquired infections. Extended-spectrum ß-lactamase (ESBL) and AmpC ß-lactamase (AmpC) enzymes cause most cephalosporin resistance in E. coli by hydrolysis of the antimicrobial and continue to jeopardize patient outcome. The purpose of this thesis was to determine the prevalence of ESBL-producing Enterobacteriaceae and to molecularly characterize ESBL and AmpC producers found to be associated with the increasing cephalosporin resistance among E. coli within Canadian hospitals from 2005 to 2009. Isolates were collected as part of the Canadian Intensive Care Unit and Canadian Ward surveillance studies. ESBL and AmpC producers were molecularly characterized for resistance genes, virulence factors and phylogenetic groups. All strains were typed using PFGE and ESBL-producing E. coli were further typed by MLST. Plasmids bearing the ESBL and AmpC genes were characterized by BglII RFLP analysis and a multiplex PCR for replicon typing. ESBL-producing E. coli and K. pneumoniae and AmpC-producing E. coli were found to be firmly established in Canadian hospitals; whereas, ESBL-producing K. oxytoca and P. mirabilis have yet to emerge. Increasing resistance to several unrelated antimicrobials leading to multi-drug resistance among these pathogens is concerning. The successful dissemination of ESBL-producing E. coli in Canada occurs through a diversity of different mechanisms and does not correspond to a single ESBL determinant, or a single clone, or a single plasmid but rather through the combination of clonal spread of virulent strains and the acquisition of diverse ESBL-bearing plasmids. However, the predominance of CTX-M-15-producing E. coli in this study was mainly due to the virulent ST131 clone and the diverse IncFII plasmids bearing the blaCTX-M-15 gene. Whereas, horizontal transfer of genetically similar IncI1, IncA/C and IncK/B plasmids bearing blaCMY-2 and the clonal spread of virulent strains, including ST131 with ampC promoter/attenuator mutations, appears to be playing a role in the spread of AmpC-producing E. coli isolates in Canadian hospitals. The increasing prevalence of these multi-drug resistant pathogens in Canadian hospitals demonstrates the need for increased surveillance and understanding of these emerging pathogens. The continued surveillance will help guide proper infection control procedures and identify optimal treatment of these clinically important pathogens in Canadian hospitals. Beta-Lactamases Escherichia coli Canada Enterobacteriaceae
59	Hybrids of enteric bacteria. / pt. A. Homology in the Enterobacteriaceae based on intercrosses between species. -- pt. B. Fertility of Salmonella typhimurium X Escherichia coli crosses. Mojica-Araque, Tobias January 1971 (has links) No description available. Salmonella typhimurium. Escherichia coli. Enterobacteriaceae. Hybridization.
60	Infectious drug resistance in enteric bacilli in Thailand / Chawewan Koonkhamlert. January 1970 (has links) (PDF) Thesis (M.Sc. (Microbiology)) -- Mahidol University, 1970.

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