Global ETD Search

1	Molecular epidemiology of uropathogenic Escherichia coli in North West England and characterisation of the ST131 clone in the region Gibreel, Tarek Mohamed January 2011 (has links) Multilocus Sequence-Typing (MLST) is a phylogenetic technique based on the detection of differences in multiple conserved housekeeping genes. Together with powerful evaluation software, MLST provides an extensive classification scheme for highly diverse species. However, despite the increasing use of MLST as a trusted epidemiological tool, the population structure of UPEC has been poorly studied using this technique, as most of the previous studies conducted have been limited either by bias towards certain characteristics, such as antimicrobial resistance and serogroup, or included a limited number of strains. Such studies can give a false impression of the population structure due to overrepresentation of certain Sequence types (STs).In this thesis, MLST was applied to 300 E. coli isolates collected from in the North West of England between June 2007 and June 2009. Firstly, the prevalence, diversity, epidemiological relationships and phylogenetic origins of the identified STs were determined. Secondly, possible associations of key UPEC STs with other genotypic and phenotypic profiles were assessed. Thirdly, as ST131 was recently reported as one of the most successful UPEC clones, an extensive examination of isolates of this clone was carried out involving identification of multiple drug resistant subclones and attempts were made to recognise putative predictor markers for identification of the ST131 clone.MLST analysis of the studied population revealed a consistent profile of STs that occurred repeatedly in the collection. It consisted primarily of ST73 (16%) followed by ST131 (13.3%), ST69 (9%), ST95 (6.3%), ST10 (4.3%), ST127 (3.6%), ST14 (2.6%) and ST405 (1.6%) some of the STs (ST127 and ST80) in the panel have never been reported as remarkable uropathogens.The broad range of virulence factor (VF) genes screened here allowed the recognition of VF patterns significantly associated with different STs. Most notably, ST127, which, based on phylogenetic analysis, appears to be a newly evolved clone, gave the highest virulence score. This virulent genotype may permit survival of ST127 isolates in the population long enough for them to gain antibiotic resistance. In contrast, multidrug resistant isolates of the ST131 clone were defined by a low virulence score and distinctive VF profiles.Metabolic reactions have been conventionally used for the classification of bacteria into families and species. Interestingly, in the assessment of the metabolic activity of different STs, members of the ST131 clone showed a high metabolic capacity compared to those of other STs, which may compensate for the low virulence capacity and explain the virulence reported for members of this ST. In contrast, ST127 showed the lowest metabolic capacity, even though it held the highest VF-score among the commonly detected STs. Multivariate logistic regression analysis demonstrated that ST131 is best described by its fluoroquinolone resistance and possession of PAI, the ibeA gene and expression of DR antigen-specific adhesins, whereas the O25b-CTX-M-15 ST131 sub-clone was only differentiated from the rest of the ST131 clone members by the production of Extended spectrum Beta-lactamase (ESBL) enzymes. 616.9
2	Epigenetic Alterations Associated with Uropathogenic Escherichia coli (UPEC) Infections in the Bladder Vincent, Akshita K 07 July 2014 (has links) Infection of the human urinary tract is one of the commonest bacterial infections, with uropathogenic E.coli (UPEC) being responsible for 90% of the diagnosed cases, with significant morbidity and mortality. The urinary bladder is a remarkable autonomic musculomembranous organ under conscious control. Its two main functions are, storage and voiding of urine. Any disturbance to normal urination leads to various clinical conditions, such as urinary incontinence, bladder retention, overactive bladder syndrome, prostatitis in men and urinary tract infections (UTI). Determining the predisposition of an individual to UTI by discovering a biomarker would allow for a more rational selection of patients who might best benefit from either antibiotic prophylaxis or preemptive surgical intervention. The purpose of this study was to examine the epigenetic effects of UPEC infection directly, or indirectly in the bladder. The study also identified potential gene candidates, such as TLR4 and CTCF, for development of DNA methylation biomarker targets. Bladder Epigenetics Uropathogenic Escherichia coli Health Care Management 0769
3	Phenotypic Characterization of Escherichia coli strains taken from human Intestinal and Urinary Tracts Murthy, Kruthi 14 December 2006 (has links) No description available. Biology, Microbiology minimal media STRAINS OPE002 motile coli uropathogenic OPE013
4	Toll like Receptor 4-Mediated Immune Responses in the Bladder Epithelium Song, Jeongmin 08 December 2008 (has links) <p>The urinary tract is one of the most intractable mucosal surfaces for pathogens to colonize. In addition to the natural barriers at this site, potential pathogens have to contend with the vigorous local innate immune response that is initiated by engagement of surveillance molecule TLRs. TLR4 appears to be not only exclusively expressed on superficial BECs but also critical to triggering robust local innate immune responses. TLR4 recognizes Gram-negative bacterial component LPS and initiates a series of intracellular NF-kappaB associated signaling events resulting in a cytokine response. We examined intracellular signaling events in human BECs leading to the production of IL-6, a major urinary cytokine, following activation by E. coli and isolated LPS, and observed that, in addition to the classical NF-kappaB associated pathway, BEC TLR4 triggers a distinct and more rapid signaling response involving, sequentially, Ca2+, AC3 generated cAMP, and the transcriptional factor CREB. This capacity of BECs to mobilize secondary messengers and evoke a more rapid IL-6 response might be critical in their role as first responders to microbial challenge in the urinary tract. </p><p>Here, we also report two additional distinct TLR4-mediated defense mechanisms in BECs. First, BEC TLR4 inhibits bacterial invasion, a necessary step for successful infection. TLR4-mediated suppression of bacterial invasion was linked to increased intracellular cAMP levels which negatively impacted Rac-1 mediated mobilization of the cytoskeleton. Additionally, we found that BECs continue to fight UPEC even after bacterial invasion by triggering bacterial exocytosis through a distinct TLR4-mediated mechanism following activation by LPS. In addition, we reveal that Caveolin-1, Rab27b, PKA, and MyRIP are components of the exocytic compartment and that they form a complex involved in the exocytosis of bacteria. The ability of TLR4 to mediate the rapid cytokine response, the inhibition of bacterial invasion, and the expulsion of intracellular bacteria from infected cells represents three previously unrecognized functions for this innate immune receptor.</p> / Dissertation Biology, Microbiology Health Sciences, Immunology Urinary Tract Infection Uropathogenic E coli Toll like receptor Bladder epithelial cells Immune responses
5	Synchrotron microanalysis of gallium as a potential novel therapy for urinary tract infections 2014 February 1900 (has links) Most urinary tract infections in humans and dogs are caused by uropathogenic strains of , and increasing antimicrobial resistance among these pathogens has created a need for a novel approach to therapy. Bacterial iron uptake and metabolism are potential targets for novel antimicrobial therapy, as iron is a limiting factor in . growth during infection. As a trivalent metal of similar atomic size to iron (III), gallium can interact with a wide variety of biomolecules that normally contain or interact with iron. Gallium compounds disrupt bacterial iron metabolism, are known to accumulate at sites of infection and inflammation in mammals, exert antimicrobial activity against multiple bacterial pathogens in vitro, and may be good candidates as novel antimicrobial drugs. We assessed the suitability of orally administered gallium maltolate as a potential new antimicrobial therapy for urinary tract infections by evaluating its distribution into the bladder, its activity against uropathogenic . in vitro, and its pharmacokinetics and efficacy in a mouse cystitis model. Using a novel application of synchrotron-based analytical methods, we confirmed the distribution of gallium to the bladder mucosa and characterized the relationship between iron and gallium distribution in the bladder. In vitro experiments with human and canine uropathogenic . isolates demonstrated that gallium maltolate exerts antimicrobial effects in a time-dependent, bacteriostatic manner. Minimum inhibitory concentrations ranged from 0.144 µmol/mL to >9.20 µmol/mL with a median of 1.15 µmol/mL. Isolates resistant to ampicillin, ciprofloxacin, or with decreased susceptibility to cephalothin were susceptible to the antimicrobial activity of gallium maltolate, suggesting that resistance to conventional antimicrobials does not predict resistance to gallium maltolate. Pharmacokinetic studies in healthy mice and in a mouse model of urinary tract infection confirmed that gallium is absorbed into systemic circulation after oral administration of gallium maltolate. Gallium is slowly eliminated from the body, with a trend toward longer terminal half-lives in blood and bladder for infected mice relative to healthy mice. This study did not reveal any statistically significant effect of infection status on maximum blood gallium concentrations (4.46 nmol/mL, 95% confidence interval 2.75 nmol/mL – 6.18 nmol/mL and 4.80 nmol/mL, 95% confidence interval 2.53 nmol/mL – 7.06 nmol/mL in healthy and infected mice, respectively) or total gallium exposure in blood and kidney as represented by area under the concentration vs. time curves. Gallium exposure in the bladder was significantly greater for mice with urinary tract infections than for healthy mice. The investigation of gallium distribution within tissues represented a novel application of synchrotron-based analytical techniques to antimicrobial pharmacokinetics. Prior to analysing tissue samples, a library of x-ray absorption spectra was assembled for gallium compounds in both the hard and soft x-ray ranges. The suitability of hard x-ray fluorescence imaging and scanning and transmission x-ray microscopy for localizing and speciating trace elements in tissues was subsequently assessed. Of these methods, only hard x-ray microprobe analysis was well-suited to the analysis and was successfully used for this application. This approach confirmed that gallium arrives at the bladder mucosa after oral administration of gallium maltolate. Furthermore, comparison of iron and gallium distribution within the bladder mucosa indicated that these elements are similarly but not identically distributed and that they do not significantly inhibit one another’s distribution. This finding suggests that gallium may be distributed in part via pathways that do not involve iron. Despite the favorable distribution characteristics of gallium and the persistence of gallium in target tissues following the oral administration of gallium maltolate, its efficacy in a mouse model of urinary tract infection was disappointing. In this study, no statistically significant difference was detected between gallium maltolate, ciprofloxacin and sham treatments in their ability to eliminate bacteria in the urinary tracts. The failure of ciprofloxacin treatment to render bladder tissue culture-negative for an organism that is classified as ciprofloxacin-susceptible in vitro is consistent with observations from other research groups. The similar lack of efficacy observed for gallium maltolate may be related to the large gap between minimum inhibitory concentrations observed in vitro and gallium concentrations observed in tissues from treated mice, but may also be related to the small study size if the effect size of gallium maltolate treatment is small. Given the magnitude of the difference between tissue concentrations and minimum inhibitory concentrations, it may not be possible to increase the dose sufficiently to achieve therapeutic concentrations without causing toxicity. While the results of these experiments suggest that orally administered gallium maltolate may not be a reasonable antimicrobial drug candidate for treating urinary tract infections caused by uropathogenic . , it may be useful for other applications. Other bacterial pathogens may be more susceptible to the antimicrobial effects of gallium maltolate, and local or topical administration could produce much higher concentrations than we observed following oral administration. Continued development of the synchrotron-based analytical techniques used in these experiments could provide new and important opportunities to investigate antimicrobial distribution and metabolism within cells and tissues, particularly for metal-based drugs. Uropathogenic gallium maltolate pharmacokinetics antimicrobial therapy urinary tract infection x-ray absorption spectroscopy
6	Activité anti-biofilm du cranberry et de l’un de ses métabolites envers Enterococcus faecalis dans un contexte d’infection urinaire / Study of bioactivity and biochemical characterization of metabolites extracted from some fruits against uropathogenic bacteria Chettaoui, Rayane 15 December 2017 (has links) Escherichia coli et Enterococcus faecalis sont deux principaux agents pathogènes impliqués dans les infections du tractus urinaire (ITU) en médecine de ville et à l’hôpital. Ces espèces bactériennes sont responsables d’ITU aigües avec des phénomènes de récurrence et dans des ITU chroniques. La consommation d'antibiotiques est directement corrélée à la résistance des bactéries uropathogènes ce qui montre l'importance de contrôler l'utilisation des antibiotiques et de développer des traitements préventifs et curatifs alternatifs pour les infections urinaires.La consommation alimentaire de cranberry et de leurs extraits est traditionnellement associée avec le maintien en bonne santé des voies urinaires. Par ailleurs, certaines études cliniques semblent montrer un effet préventif des ITU associé à la consommation alimentaire de cranberry. In vitro et ex vivo, la consommation de ces extraits par l’homme réduit l’adhérence de certaines souches d’E. coli aux cellules épithéliales urinaires et la formation de biofilm de différentes espèces. L’hypothèse de travail est que la consommation alimentaire d’extraits de cranberry conduise à la formation de métabolites urinaires qui diminuent l'adhérence des bactéries uropathogènes à l’épithélium urinaire. Ce mécanisme serait à la base de la prévention des ITU par consommation d’extraits de cranberry. Cependant, les métabolites bioactifs restent largement méconnus. / Escherichia coli and Enterococcus faecalis are two main pathogens involved in urinary tract infections (ITU) in town medicine and in the hospital. These bacterial species are responsible for acute UTIs with recurrence phenomena and in chronic ITUs. The consumption of antibiotics is directly correlated with the resistance of uropathogenic bacteria, which shows the importance of controlling the use of antibiotics and of developing alternative preventive and curative treatments for urinary infections.Cranberry consumption of their extracts is traditionally associated with the maintenance of healthy urinary tract. In addition, some clinical studies seem to show a preventive effect of ITUs associated with cranberry consumption. In vitro and ex vivo, the consumption of these extracts by humans reduces the adhesion of certain E. coli strains to urinary epithelial cells and biofilm formation of different species. The working hypothesis is that the consumption of cranberry extracts leads to the formation of urinary metabolites that decrease the adhesion of uropathogenic bacteria to the urinary epithelium. This mechanism would be the basis for the prevention of ITU by consumption of cranberry extracts. However, bioactive metabolites remain largely unknown. Cranberry Bactéries uropathogènes. Infections du tractus urinaire Résistance des bactéries Antibiotiques Biofilm Cranberry Uropathogenic bacteria Urinary tract infections Bacterial resistance Antibiotics Biofilm
7	Définir le début des événements conduisant à une réponse immunitaire adaptative lors de l'infection urinaire / Deciphering the early events leading to an adaptive immune response during urinary tract infection Mora Bau, Gabriela 30 September 2015 (has links) L’infection des voies urinaires est l'une des infections bactériennes les plus courantes avec des coûts de soins de santé très élevés. On estime que 50% des femmes connaîtront une infection urinaire au cours de leur vie, ceci de manière récurrente chez la moitié d’entre elles. Le développement de thérapies efficaces a été limité par le manque de connaissance concernant la mise en place de la réponse immune adaptative lors de cette infection. Dans cette étude, nous avons démontré qu'une réponse adaptative est générée lors de l'infection urinaire, cependant celle-ci n’a pas d’action protectrice. Afin de comprendre les mécanismes aboutissant à ce phénomène, nous avons cherché à caractériser les cellules immunitaires présentes dans la vessie. Des tests d’absorption bactérienne ont montré que ces macrophages phagocytent la majorité des bactéries au début de l'infection. Pour évaluer l’influence de ces cellules sur la mise en place de la réponse immune adaptative, nous avons déplété les macrophages et évalué la clairance bactérienne lors d’une deuxième infection. En comparaison avec les animaux non traités, les souris déplétées présentaient une réduction de la charge bactérienne conséquente lors de la seconde infection, cette clairance dépendant de la réponse immune adaptative. Pour comprendre ce mécanisme d'inhibition par les macrophages, nous avons évalué le microenvironnement vésical et la phagocytose au début de l'infection chez les souris déplétées, et chez les souris non traitées. Bien que nous n’ayons pas observé de différences dans la production de cytokines, l'absorption bactérienne par les cellules dendritiques s’avère deux fois plus importante chez les animaux déplétés. Ces données suggèrent que l'absorption bactérienne par les macrophages tissulaires est néfaste pour la mise en place de la réponse adaptative, ouvrant de nouvelles options thérapeutiques. Nous avons également évalué le rôle des lymphocytes T dans ce processus en déplétant ces cellules au cours de l'infection primaire ou avant la deuxième infection. Ainsi, nous avons observé que les lymphocytes T sont nécessaires dans la réponse adaptative, mais ne sont cependant pas indispensables à la clairance bactérienne lors d'une réinfection. De plus, l'infection des souris Batf3-/-, déplétées en cellules dendritiques spécialisées dans la présentation croisée, a montré que ces souris contrôlent une seconde infection aussi bien que les souris contrôle. Ces résultats suggérent que la présence lymphocytes T CD8+ n’est pas nécessaire pour lutter contre l’infection urinaire. Notre étude révèle un mécanisme par lequel le système immunitaire est compromis lors de l'infection urinaire, offrant un point de départ intéressant pour une recherche plus approfondie sur le rôle du système immunitaire adaptatif dans ce contexte, élément fondamental dans le développement de nouvelles thérapies. / Urinary tract infection (UTI) is one of the most common bacterial infections with exorbitant health care costs. It is estimated that 50% of women will experience a UTI during their lifetime and approximately half will suffer recurrent infections. Infected women are treated with antibiotics, however, antibiotic resistance is increasing, raising the need for new therapeutic options. Development of efficient therapies has been impeded by the lack of knowledge of events leading to adaptive immunity. In this study, we demonstrated that an adaptive immune response is generated during UTI, however this response does not confer protective immunity. To begin to understand why the response induced during UTI was not effective, we delineated the immune cell compartment of the bladder and identified macrophages as the most populous immune cell. We evaluated bacterial acquisition in the bladder observing that macrophages phagocytize the majority of the bacteria early in infection. To evaluate the impact of macrophages on the generation of adaptive immunity, we depleted bladder resident macrophages and evaluated bacterial clearance during a challenge infection. Interestingly, mice depleted of resident macrophages, prior to primary infection, exhibited a nearly 2-log reduction in bacterial burden following secondary challenge compared to untreated animals. This improvement in clearance was dependent on the adaptive immune system. To shed light on the mechanism of macrophage inhibition, we evaluated the bladder microenvironment and bacterial acquisition early in infection in macrophage-depleted and control-treated mice. While we did not observe differences in the cytokine microenvironment, bacterial uptake by dendritic cells was increased nearly 2-fold in macrophage-depleted animals. These data suggest that bacterial uptake by tissue macrophages negatively impacts the development of adaptive immunity, revealing a novel target for enhancing host responses to bacterial infection of the bladder. We also evaluated the role of T cells during UTI by depleting these cells during the course of the infection or just prior to challenge infection. We observed that T cells were necessary to mount an adaptive immune response to UTI, however, they were dispensable for bacterial killing during challenge infection. Additionally, infection of Batf3-/- mice, lacking cross-presenting dendritic cells, suggested that CD8+ T cells are dispensable for the response against UTI as these mice cleared a challenge infection as well as wildtype mice. Our study has revealed a mechanism by which the immune system is compromised during UTI, providing an interesting start point for further investigation of the role of the adaptive immune system during UTI, which will be fundamental for the development of new therapies to efficiently treat infection. Vessie Uropathogenic e. coli Infection des voies urinaires Macrophages Cellules dendritiques Lymphocytes T. Urinary tract infection Macrophages Bladder 571.96
8	Molecular epidemiology, virulence potential and antibiotic susceptibility of the major lineages of uropathogenic Escherichia coli Alghoribi, Majed January 2015 (has links) Uropathogenic E. coli (UPEC) is the most frequent cause of urinary tract infection (UTI), being responsible for up to 85% of community acquired and 40% of nosocomial cases. UPEC strains harbour various virulence factors that contribute to their ability to cause disease. The high prevalence across the globe of multidrug resistant UPEC is a significant threat to therapy. Virulent and resistant UPEC strains have been recognised as belonging to major lineages and we have only recently begun to understand the factors contributing to their successful global dissemination. Work in this thesis was carried out to identify the population structure of E. coli isolates recovered from urosepsis and biliary sepsis, to reveal any differences in genetic background. A total of 100 isolates from the blood and urine of 50 patients presenting with urosepsis and 27 isolates from cases of biliary sepsis were subjected to genotypic and phenotypic analysis, including MLST, virulence gene detection and antibiogram and metabolic profiling. Urosepsis paired isolates showed identical genotypes and antimicrobial resistance profiles. However, several pairs of isolates showed discrepant metabolic activity profiles suggesting niche specific regulation of metabolism. Members of the ST131 clone were significantly associated with antibiotic resistance and ST38 isolates were associated with the highest level of metabolic activity. An in vivo infection model was used to investigate the virulence potential of isolates from the major UPEC lineages. Galleria mellonella larvae inoculated with ST69 and ST127 isolates showed significantly higher mortality rates than those infected with other strains. However, one isolate of ST127 (strain EC18) was avirulent and comparative genomic analyses with a single virulent ST127 strain revealed an IS1 mediated deletion in the O-antigen cluster in strain EC18, which is likely to explain the lack of virulence in the larvae and demonstrates the importance of this cell surface molecule in the model system. Finally, a total of 202 UPEC isolates were recovered from community and hospital urine samples from a tertiary care hospital in Riyadh, Saudi Arabia. Molecular epidemiological investigation of the strains was carried out to examine the overall UPEC population structure, for the first time in any part of Saudi Arabia. The most common lineages were ST131 (17.3%), ST73 (11.4%), ST38 (7.4%), ST69 (7.4%) and ST10 (6.4%). The findings highlight the successful spread of multidrug resistant, CTX-M positive ST38, ST131 and ST405 UPEC in Saudi Arabia. The high proportion (35%) of ESBL producing E. coli isolates is a particular concern and is driving frequent prescription of carbapenem antibiotics. A total of four isolates of ST38 were positive for aggR, which is a virulence marker of enteroaggregative E. coli (EAEC); ST38 strains that cause UTI but have an EAEC genetic background are becoming recognised as novel UPEC and this clonal group warrants further study. 616
9	The Impact of Phagocyte-UPEC Interactions Upon Pathogenesis of Urinary Tract Infections Horvath, Dennis John, Jr. 20 October 2011 (has links) No description available. Biomedical Research Immunology Microbiology urinary tract infections Uropathogenic E. coli innate immunity phagocytosis flow cytometry macrophages dendritic cells
10	Caracterização fenotípica e molecular de isolados de Escherichia coli uropatogênica provenientes de pacientes no Hospital das Clínicas da Faculdade de Medicina de Botucatu Tanabe, Rodrigo Hideki Souza January 2020 (has links) Orientador: Rodrigo Tavanelli Hernandes / Resumo: Escherichia coli uropatogênica (UPEC) causa a maioria das infecções do trato urinário (ITU), incluindo cistite e pielonefrite, no hospedeiro humano. A UPEC utiliza numerosos fatores de virulência para entrar, aderir, colonizar, adquirir nutrientes essenciais, multiplicar e causar danos ao ambiente do trato urinário. Estudos recentes demonstraram que alguns isolados de UPEC carregam fatores de virulência associados à patótipos diarreiogênicos de E. coli (DEC), como EAEC (E. coli enteroagregativa) e EPEC (E. coli enteropatogênica). Uma grande preocupação nas infecções por UPEC é o aumento da resistência antimicrobiana, levando à falha do tratamento em algumas ITUs causadas por esse patógeno. Nesse estudo, um total de 118 isolados de UPEC de amostras ambulatoriais de urina de pacientes atendidos no Hospital das Clinicas da Faculdade de medicina de Botucatu entre março e maio de 2018. Reação em cadeia da polimerase (PCR) foi usada para detectar 29 genes que codificam fatores de virulência, bem como marcadores de DEC (escN, stx1/2, aatA e aggR); além de genes que codificam adesinas e toxinas associadas ao patótipo EAEC. Os isolados de UPEC foram designados nos diferentes filogrupos de E. coli, utilizando um PCR quadruplex; e a determinação do perfil de susceptibilidade antimicrobiana foi realizada pelo método de disco difusão. Entre os isolados estudados, 39,8% foram atribuídos ao filogrupo B2, enquanto UPEC dos filogrupos B1 (14,4%), A (14,4%), D (12,7%), F (8,5%), G (3,4%), E ( ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Uropathogenic Escherichia coli (UPEC) cause the majority of urinary tract infections (UTIs), including cystitis and pyelonephritis, in the human host. UPEC utilizes numerous virulence factors to entry, adhere, colonize, acquire essential nutrients, multiply and cause damage in the urinary tract environment. Recent studies have shown that some UPEC isolates carry virulence factors associated with the diarrheagenic E. coli (DEC) pathotypes, such as EAEC (enteroaggregative E. coli) and EPEC (enteropathogenic E. coli). A major concern in UPEC infections is the constant increasing of antimicrobial resistance, thus leading to treatment failure in some UTIs caused by this pathogen. In this study a total of 118 UPEC isolates were obtained from outpatient urine samples, attended at University Hospital of Botucatu Medical School between March and May of 2018. Polymerase chain reaction (PCR) was used to detect 29 virulence factor-encoding genes, diarhoeagenic E. coli markers, (escN, stx1/2, aatA and aggR), as well as genes encoding adhesins and toxins associated with the EAEC pathotype. The UPEC isolates were assigned in the distinct E. coli phylogroups, using a quadruplex PCR; and the determination of the antimicrobial resistance profile was performed using the diskdiffusion method. Among the isolates studied, 39.8% were assigned to phylogroup B2, while UPEC isolates from other phylogroups were detected as follows: B1 (14,4%), A (14,4%), D (12,7%), F (8,5%), G (3,4%), E ( 2,5%), E. cla... (Complete abstract click electronic access below) / Mestre Resistência a antimicrobianos Betalactamase de espectro estendido Infecção do trato urinário Escherichia coli uropatogênica Antimicrobial resistance Extended spectrum betalactamase Urinary tract infection Uropathogenic Escherichia coli

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