Subjects' Sociodemographics Influence the Transmission Patterns of Diarrheagenic Escherichia coli Pathotypes among Children under 5 Years in Nakuru County.

BACKGROUND: Diarrheagenic Escherichiacoli (DEC) infections constitute the leading causes of morbidity and mortality among children in Sub-Saharan Africa. However, little has so far been done to properly reveal the pathogenic endowments of DEC in these populations. AIMS AND OBJECTIVES: We evaluated 4 DEC strains among children under 5 years. MATERIALS AND METHODS: A cross-sectional study design was employed among 384 positive cases. RESULTS: There was a significant decline in infections associated with DEC as the children grew older (χ2[12] = 87.366: P = [0.000]. A total of 56 (14.6%) cases were 0-12 months, 168 (43.8%) were 13-24 months, 88 (22.9%) were 25-36 months, 40 (10.4%) were 37-48 months, and 32 (8.3%) were 49-60 months. A total of 248 (64.6%) male subjects exhibited more susceptibility to DEC infections than their female counterparts (n = 136 [35.4%]) (χ2[3] =13.313: P = [0.004]. Subjects from urban areas (n = 248 [64.6%]), significantly bored the brunt of infections than those from rural areas (n = 136 [35.4%]) (χ2[3] = 35.147: P = [0.000]. The prevalence of DEC appeared significantly higher during rainy seasons (n = 269 [70.1%]). CONCLUSION: Young age, male gender, crowding, and rainy season play a central role in the transmission of DEC pathotypes.

Résumé Contexte:Les infections à Escherichia coli entéropathogène (DEC) constituent les principales causes de morbidité et de mortalité chez les enfants en Afrique subsaharienne. Cependant, jusqu'à présent, peu de choses ont été faites pour révéler correctement les caractéristiques pathogènes de DEC dans ces populations.Objectifs:Nous avons évalué 4 souches de DEC chez les enfants de moins de 5 ans.Matériel et méthodes:Un plan d'étude transversal a été utilisé parmi 384 cas positifs.Résultats:Il y a eu une diminution significative des infections associées à DEC à mesure que les enfants grandissaient (χ2 [12] = 87,366 : P = [0,000]). Un total de 56 (14,6 %) cas avaient entre 0 et 12 mois, 168 (43,8 %) avaient entre 13 et 24 mois, 88 (22,9 %) avaient entre 25 et 36 mois, 40 (10,4 %) avaient entre 37 et 48 mois, et 32 (8,3 %) avaient entre 49 et 60 mois. Un total de 248 (64,6 %) sujets masculins ont montré une plus grande susceptibilité aux infections à DEC que leurs homologues féminins (n = 136 [35,4 %]) (χ2 [3] = 13,313 : P = [0,004]). Les sujets des zones urbaines (n = 248 [64,6 %]) ont significativement supporté le fardeau des infections par rapport à ceux des zones rurales (n = 136 [35,4 %]) (χ2 [3] = 35,147 : P = [0,000]). La prévalence de DEC semblait significativement plus élevée pendant la saison des pluies (n = 269 [70,1 %]).Conclusion:L'âge jeune, le sexe masculin, la surpopulation et la saison des pluies jouent un rôle central dans la transmission des pathotypes de DEC.

VirBR, a transcription regulator, promotes IncX3 plasmid transmission, and persistence of blaNDM-5 in zoonotic bacteria.

IncX3 plasmids carrying the New Delhi metallo-ß-lactamase-encoding gene, blaNDM-5, are rapidly spreading globally in both humans and animals. Given that carbapenems are listed on the WHO AWaRe watch group and are prohibited for use in animals, the drivers for the successful dissemination of Carbapenem-Resistant Enterobacterales (CRE) carrying blaNDM-5-IncX3 plasmids still remain unknown. We observe that E. coli carrying blaNDM-5-IncX3 can persist in chicken intestines either under the administration of amoxicillin, one of the largest veterinary ß-lactams used in livestock, or without any antibiotic pressure. We therefore characterise the blaNDM-5-IncX3 plasmid and identify a transcription regulator, VirBR, that binds to the promoter of the regulator gene actX enhancing the transcription of Type IV secretion systems (T4SS); thereby, promoting conjugation of IncX3 plasmids, increasing pili adhesion capacity and enhancing the colonisation of blaNDM-5-IncX3 transconjugants in animal digestive tracts. Our mechanistic and in-vivo studies identify VirBR as a major factor in the successful spread of blaNDM-5-IncX3 across one-health AMR sectors. Furthermore, VirBR enhances the plasmid conjugation and T4SS expression by the presence of copper and zinc ions, thereby having profound ramifications on the use of universal animal feeds.

In-silico insights of ESBL variants and tracking the probable sources of ESBL-producing Escherichia coli in a small-scale poultry farm.

Commercial broiler farms face challenges of extended spectrum beta-lactamase (ESBL)-producing Escherichia coli transmitted from both vertical and horizontal routes. Understanding the dynamics of ESBL-E. coli transmission in compromised biosecurity settings of small-scale rural poultry farms is essential. This study aimed to elucidate the probable transmission pathways of ESBL-E. coli in such settings, employing phylogenetic analysis and molecular docking simulations to explore the catalytic properties of ß-lactamase variants. Sampling was conducted on a small-scale poultry farm in West Bengal, India, collecting 120 samples at three intervals during the broiler production cycle. E. coli isolates underwent resistance testing against eight antimicrobials, with confirmation of ESBL production. Genotypic analysis of ESBL genes and sequencing were performed, alongside molecular docking analyses and phylogenetic comparisons with publicly available sequences. Among 173 E. coli isolates, varying resistance profiles were observed, with complete resistance to cefixime and high resistance to amoxicillin and tetracycline. The incidence of ESBL-E. coli fluctuated over the production cycle, with dynamic changes in the prevalence of blaCTX-M-type and blaSHV-type genes. Phylogenetic analysis indicated partial clonal relationships with human clinical strains and poultry strains from the Indian subcontinent. Molecular docking confirmed the catalytic efficiencies of these ESBL variants. The study highlights probable vertical transmission of ESBL-E. coli and emphasizes drinking water as a potential source of horizontal transmission in small-scale poultry farms. Strict biosecurity measures could prevent the spread of antimicrobial-resistant bacteria in birds and their products in a small scale poultry farm.

Unveiling the genetic architecture and transmission dynamics of a novel multidrug-resistant plasmid harboring blaNDM-5 in E. Coli ST167: implications for antibiotic resistance management.

BACKGROUND: The emergence of multidrug-resistant (MDR) Escherichia coli strains poses significant challenges in clinical settings, particularly when these strains harbor New Delhi metallo-ß-lactamase (NDM) gene, which confer resistance to carbapenems, a critical class of last-resort antibiotics. This study investigates the genetic characteristics and implications of a novel blaNDM-5-carrying plasmid pNDM-5-0083 isolated from an E. coli strain GZ04-0083 from clinical specimen in Zhongshan, China. RESULTS: Phenotypic and genotypic evaluations confirmed that the E. coli ST167 strain GZ04-0083 is a multidrug-resistant organism, showing resistance to diverse classes of antibiotics including ß-lactams, carbapenems, fluoroquinolones, aminoglycosides, and sulfonamides, while maintaining susceptibility to monobactams. Investigations involving S1 pulsed-field gel electrophoresis, Southern blot analysis, and conjugation experiments, alongside genomic sequencing, confirmed the presence of the blaNDM-5 gene within a 146-kb IncFIB plasmid pNDM-5-0083. This evidence underscores a significant risk for the horizontal transfer of resistance genes among bacterial populations. Detailed annotations of genetic elements-such as resistance genes, transposons, and insertion sequences-and comparative BLAST analyses with other blaNDM-5-carrying plasmids, revealed a unique architectural configuration in the pNDM-5-0083. The MDR region of this plasmid shares a conserved gene arrangement (repA-IS15DIV-blaNDM-5-bleMBL-IS91-suI2-aadA2-dfrA12) with three previously reported plasmids, indicating a potential for dynamic genetic recombination and evolution within the MDR region. Additionally, the integration of virulence factors, including the iro and sit gene clusters and enolase, into its genetic architecture poses further therapeutic challenges by enhancing the strain's pathogenicity through improved host tissue colonization, immune evasion, and increased infection severity. CONCLUSIONS: The detailed identification and characterization of pNDM-5-0083 enhance our understanding of the mechanisms facilitating the spread of carbapenem resistance. This study illuminates the intricate interplay among various genetic elements within the novel blaNDM-5-carrying plasmid, which are crucial for the stability and mobility of resistance genes across bacterial populations. These insights highlight the urgent need for ongoing surveillance and the development of effective strategies to curb the proliferation of antibiotic resistance.

Interspecies transmission of antimicrobial-resistant bacteria between wild birds and mammals in urban environment.

The transmission of antibiotic-resistant bacteria among wild animal species may hold significant epidemiological implications. However, this issue is seldom explored due to the perceived complexity of these systems, which discourages experimental investigation. To address this knowledge gap, we chose a configuration of birds and mammals coexisting in an urban green area as a research model: the rook Corvus frugilegus and the striped field mouse Apodemus agrarius. The indirect transmission of antimicrobial-resistant bacteria between these species is possible because rodents inhabiting rook colonies frequently come into contact with the birds' faeces and pellets. The study was conducted in two cities in eastern Poland (Central Europe) - Lublin and Chelm. Among 71 Escherichia (E.) coli isolates studied, 19.7% showed resistance to from one to six of the antibiotics tested, with much higher prevalence of antibiotic-resistant bacteria in the birds (32%) than in the rodents (7%). Whole genome sequencing was performed on 10 selected E. coli isolates representing similar resistance phenotypes. The following antimicrobial resistance genes were detected: blaTEM-1b, tet(A), tet(B), aph(6)-Id, aph(3'')-Ib, aadA1, aadA2, catA1, floR, cmlA, sul2, sul3, dfrA14, and dfrA2. Birds from the same city and also from both neighbouring cities shared E. coli bacteria with the same sequence types, whereas isolates detected in birds were not found to have been transferred to the mammalian population, despite close contact. This demonstrates that even intensive exposure to sources of these pathogens does not necessarily lead to effective transmission of antibiotic-resistant E. coli strains between birds and mammals. Further efforts should be dedicated to investigating actual transmission of antimicrobial-resistant bacteria in various ecological systems, including those that are crucial for public health, such as urban environments. This will facilitate the development of more accurate models for epidemiological threats and the formulation of well-balanced decisions regarding the coexistence of humans and urban wildlife.

Tracking antimicrobial resistance transmission in urban and rural communities in Bangladesh: a One Health study of genomic diversity of ESBL-producing and carbapenem-resistant Escherichia coli.

Antimicrobial resistance (AMR) poses a significant threat to global health and sustainable development goals, especially in low- and middle-income countries (LMICs). This study aimed to understand the transmission of AMR between poultry, humans, and the environment in Bangladesh using a One Health approach. We analyzed the whole genome sequences (WGS) of 117 extended-spectrum ß-lactamase-producing Escherichia coli (ESBL-Ec) isolates, with 46 being carbapenem resistant. These isolates were obtained from human (n = 20) and poultry feces (n = 12), as well as proximal environments (wastewater) (n = 85) of three different study sites, including rural households (n = 48), rural poultry farms (n = 20), and urban wet markets (n = 49). The WGS of ESBL-Ec isolates were compared with 58 clinical isolates from global databases. No significant differences in antibiotic resistance genes (ARGs) were observed in ESBL-Ec isolated from humans with and without exposure to poultry. Environmental isolates showed higher ARG diversity than human and poultry isolates. No clonal transmission between poultry and human isolates was found, but wastewater was a reservoir for ESBL-Ec for both. Except for one human isolate, all ESBL-Ec isolates were distinct from clinical isolates. Most isolates (77.8%) carried at least one plasmid replicon type, with IncFII being the most prevalent. IncFIA was predominant in human isolates, while IncFII, Col(MG828), and p0111 were common in poultry. We observed putative sharing of ARG-carrying plasmids among isolates, mainly from wastewater. However, in most cases, bacterial isolates sharing plasmids were also clonally related, suggesting clonal spread was more probable than just plasmid transfer. IMPORTANCE: Our study underscores that wastewater discharged from households and wet markets carries antibiotic-resistant organisms from both human and animal sources. Thus, direct disposal of wastewater into the environment not only threatens human health but also endangers food safety by facilitating the spread of antimicrobial resistance (AMR) to surface water, crops, vegetables, and subsequently to food-producing animals. In regions with intensive poultry production heavily reliant on the prophylactic use of antibiotics, compounded by inadequate waste management systems, such as Bangladesh, the ramifications are particularly pronounced. Wastewater serves as a pivotal juncture for the dissemination of antibiotic-resistant organisms and functions as a pathway through which strains of human and animal origin can infiltrate the environment and potentially colonize new hosts. Further research is needed to thoroughly characterize wastewater isolates/populations and understand their potential impact on interconnected environments, communities, and wildlife.

Survival of highly related ESBL- and pAmpC- producing Escherichia coli in broiler farms identified before and after cleaning and disinfection using cgMLST.

BACKGROUND: Broiler chickens are frequently colonized with Extended-Spectrum Beta-Lactamase- (ESBL-) and plasmid mediated AmpC Beta-Lactamase- (pAmpC-) producing Enterobacterales, and we are confronted with the potential spread of these resistant bacteria in the food chain, in the environment, and to humans. Research focused on identifying of transmission routes and investigating potential intervention measures against ESBL- and pAmpC- producing bacteria in the broiler production chain. However, few data are available on the effects of cleaning and disinfection (C&D) procedures in broiler stables on ESBL- and pAmpC- producing bacteria. RESULTS: We systematically investigated five broiler stables before and after C&D and identified potential ESBL- and pAmpC- colonization sites after C&D in the broiler stables, including the anteroom and the nearby surrounding environment of the broiler stables. Phenotypically resistant E. coli isolates grown on MacConkey agar with cefotaxime were further analyzed for their beta-lactam resistance genes and phylogenetic groups, as well as the relation of isolates from the investigated stables before and after C&D by whole genome sequencing. Survival of ESBL- and pAmpC- producing E. coli is highly likely at sites where C&D was not performed or where insufficient cleaning was performed prior to disinfection. For the first time, we showed highly related ESBL-/pAmpC- producing E. coli isolates detected before and after C&D in four of five broiler stables examined with cgMLST. Survival of resistant isolates in investigated broiler stables as well as transmission of resistant isolates from broiler stables to the anteroom and surrounding environment and between broiler farms was shown. In addition, enterococci (frequently utilized to detect fecal contamination and for C&D control) can be used as an indicator bacterium for the detection of ESBL-/pAmpC- E. coli after C&D. CONCLUSION: We conclude that C&D can reduce ESBL-/pAmpC- producing E. coli in conventional broiler stables, but complete ESBL- and pAmpC- elimination does not seem to be possible in practice as several factors influence the C&D outcome (e.g. broiler stable condition, ESBL-/pAmpC- status prior to C&D, C&D procedures used, and biosecurity measures on the farm). A multifactorial approach, combining various hygiene- and management measures, is needed to reduce ESBL-/pAmpC- E. coli in broiler farms.

Global transmission of extended-spectrum cephalosporin resistance in Escherichia coli driven by epidemic plasmids.

BACKGROUND: Extended-spectrum cephalosporins (ESCs) are third and fourth generation cephalosporin antimicrobials used in humans and animals to treat infections due to multidrug-resistant (MDR) bacteria. Resistance to ESCs (ESC-R) in Enterobacterales is predominantly due to the production of extended-spectrum ß-lactamases (ESBLs) and plasmid-mediated AmpC ß-lactamases (AmpCs). The dynamics of ESBLs and AmpCs are changing across countries and host species, the result of global transmission of ESC-R genes. Plasmids are known to play a key role in this dissemination, but the relative importance of different types of plasmids is not fully understood. METHODS: In this study, Escherichia coli with the major ESC-R genes blaCTX-M-1, blaCTX-M-15, blaCTX-M-14 (ESBLs) and blaCMY-2 (AmpC), were selected from diverse host species and other sources across Canada, France and Germany, collected between 2003 and 2017. To examine in detail the vehicles of transmission of the ESC-R genes, long- and short-read sequences were generated to obtain complete contiguous chromosome and plasmid sequences (n = 192 ESC-R E. coli). The types, gene composition and genetic relatedness of these plasmids were investigated, along with association with isolate year, source and geographical origin, and put in context with publicly available plasmid sequences. FINDINGS: We identified five epidemic resistance plasmid subtypes with distinct genetic properties that are associated with the global dissemination of ESC-R genes across multiple E. coli lineages and host species. The IncI1 pST3 blaCTX-M-1 plasmid subtype was found in more diverse sources than the other main plasmid subtypes, whereas IncI1 pST12 blaCMY-2 was more frequent in Canadian and German human and chicken isolates. Clonal expansion also contributed to the dissemination of the IncI1 pST12 blaCMY-2 plasmid in ST131 and ST117 E. coli harbouring this plasmid. The IncI1 pST2 blaCMY-2 subtype was predominant in isolates from humans in France, while the IncF F31:A4:B1 blaCTX-M-15 and F2:A-:B- blaCTX-M-14 plasmid subtypes were frequent in human and cattle isolates across multiple countries. Beyond their epidemic nature with respect to ESC-R genes, in our collection almost all IncI1 pST3 blaCTX-M-1 and IncF F31:A4:B1 blaCTX-M-15 epidemic plasmids also carried multiple antimicrobial resistance (AMR) genes conferring resistance to other antimicrobial classes. Finally, we found genetic signatures in the regions surrounding specific ESC-R genes, identifying the predominant mechanisms of ESC-R gene movement, and using publicly available databases, we identified these epidemic plasmids from widespread bacterial species, host species, countries and continents. INTERPRETATION: We provide evidence that epidemic resistance plasmid subtypes contribute to the global dissemination of ESC-R genes, and in addition, some of these epidemic plasmids confer resistance to multiple other antimicrobial classes. The success of these plasmids suggests that they may have a fitness advantage over other plasmid types and subtypes. Identification and understanding of the vehicles of AMR transmission are crucial to develop and target strategies and interventions to reduce the spread of AMR. FUNDING: This project was supported by the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), through the Medical Research Council (MRC, MR/R000948/1), the Canadian Institutes of Health Research (CFC-150770), and the Genomics Research and Development Initiative (Government of Canada), the German Federal Ministry of Education and Research (BMBF) grant no. 01KI1709, the French Agency for food environmental and occupational health & safety (Anses), and the French National Reference Center (CNR) for antimicrobial resistance. Support was also provided by the Biotechnology and Biological Sciences Research Council (BBSRC) through the BBSRC Institute Strategic Programme Microbes in the Food ChainBB/R012504/1 and its constituent project BBS/E/F/000PR10348 (Theme 1, Epidemiology and Evolution of Pathogens in the Food Chain).

Meningitis neonatal precoz causada por transmisión vertical de Escherichia coli productora de beta-lactamasa de espectro extendido en parto prematuro con rotura prematura de membranas / Early neonatal meningitis caused by vertical transmission of extended-spectrum beta-lactamase-producing Escherichia coli in premature labor with premature rupture of membranes

Se comunica el caso de un recién nacido producto de un parto prematuro con rotura prematura de membranas, que desarrolló precozmente meningitis neonatal por Escherichia coli productora de beta-lactamasa de espectro extendido. Los cultivos en líquido céfalo raquídeo y sangre neonatal fueron tempranamente positivos para esta bacteria. No obstante no aislarse este microorganismo en la madre, los hallazgos de la biopsia placentaria y la precocidad de la infección neonatal son determinantes en señalar que se trató de infección intraamniótica con transmisión vertical al neonato. La meningitis neonatal fue tratada con meropenem y el niño se dio de alta en buenas condiciones después de 41 días de hospitalización. Las guías perinatales actuales, preconizan el tamizaje de muestras vaginales para la prevención del parto prematuro y de los resultados adversos asociados a infección bacteriana ascendente durante el embarazo.

We report the case of a newborn resultant of premature delivery with premature rupture of membranes, which developed early-onset neonatal meningitis caused by transmission of Escherichia coli producer of betalactamasa of spectrum extended. Cultures in cerebrospinal fluid and neonatal blood were early positive for this bacterium. Although this microorganism is not isolated in the mother, the findings of the placenta biopsy and the precocity of the neonatal infection are determinant in indicating that it was an intraamniotic infection with vertical transmission to the neonate. Neonatal meningitis was treated with meropenem and the child was discharged in good condition after 41 days of hospitalization. The current perinatal guidelines support the screening of vaginal samples for the prevention of preterm birth and the adverse outcomes associated with ascending bacterial infection during pregnancy.

Microbiological and serological control of Escherichia coli O157: H7 in kindergarten staff in Buenos Aires city and suburban areas

Shiga toxin (Stx)-producing Escherichia coli (STEC) infections are implicated in the development of the life-threatening hemolytic-uremic syndrome (HUS). Despite the magnitude of the social and economic problems caused by HUS, no licensed vaccine or effective therapy is currently available for human use. Prevention of STEC infections continues being the most important measure to reduce HUS incidence. This is especially true for Argentina where HUS incidence among children is extremely high and shows an endemic pattern. The aim of this work was to investigate serologically adult staff of kindergartens in Buenos Aires city and suburban areas in order to detect possible carriers, and to educate personnel about good practices to reduce HUS transmission. We also assessed the microbiological quality of water and meal samples from the same kindergartens. We tested 67 healthy adults, 13 water supplies and 6 meals belonging to 6 public kindergartens. We analysed hand swabs for isolation of STEC and serum samples for the presence of antibodies against Stx and lipopolysaccharide (LPS) of O157 serogroup. We identified 46 Stx2-positive individuals, but only 7 for O157 LPS. No presence of STEC pathogens was detected in hands of staff, water or meal samples.

Las infecciones bacterianas con Escherichia coli productor de toxina Shiga (Stx) (STEC) están implicadas en el desarrollo del síndrome urémico hemolítico (SUH). A pesar de la magnitud del problema social y económico causado por el SUH, actualmente no existe un tratamiento específico o una vacuna eficaz para uso humano. Por lo tanto, la prevención de las infecciones por STEC es la tarea central para reducir la incidencia del SUH. Esto es especialmente cierto para Argentina en donde el SUH muestra un comportamiento endémico y presenta una incidencia extremadamente alta entre los niños. En efecto, la mediana de casos notificados en menores de 5 años para el periodo 2010-2015 fue 306, mientras que la tasa de notificación fue 8.5 casos cada 100 000 menores/año (http://www.msal.gob.ar/images/stories/boletines/boletin_integrado_vigilancia_N335-SE45.pdf). El objetivo de este trabajo fue analizar serológicamente al personal adulto de jardines de infantes de la ciudad de Buenos Aires y el área suburbana con el fin de detectar portadores, y brindarles formación sobre las buenas prácticas para reducir la transmisión de infecciones con STEC y así evitar el SUH. También se evaluó la calidad microbiológica de las muestras de agua y de la comida elaborada en los mismos jardines. Hemos estudiado 67 adultos, a través del hisopado de manos para la búsqueda de STEC y suero para la presencia de anticuerpos contra Stx y el lipopolisacárido (LPS) de serogrupo O157. También se analizaron 13 suministros de agua y 6 muestras de comida pertenecientes a 6 jardines de infantes públicos. Se identificaron 46 individuos positivos para Stx2, pero solo 7 para LPS-O157. No se detectó presencia de patógenos STEC en las muestras de las manos del personal, ni en los reservorios de agua o muestras de comida.

Síndrome hemolítico urémico asociado a infección por E. coli productor de toxina de shiga / Shiga-toxin-producing Escherichia coli and haemolytic uraemic syndrome

E.coli productora de Toxina Shiga (STEC), también conocida como E.coli entero- hemorrágica (EHEC), provoca un amplio espectro de manifestaciones clínicas, ya sea en brote o en forma esporádica, que incluyen dolor abdominal, fiebre leve o ausente, con o sin vómitos, diarreas (sanguinolenta o no), y complicaciones extraintestinales como: síndrome hemolítico urémico (SHU) que se observa hasta en un 5-6 por ciento de niños infectados, y púrpura trombocitopénico (7 por ciento de adultos). EI principal factor de virulencia es la producción de una familia de moléculas denominada STX (Shiga toxin), de las cuales STX 1 y 2 son las más frecuentes y característica distintiva de estos E.coli. EI principal serogrupo involucrado en Chile es O157:H7 pero también se han aislado 026, 055, 02, 0117 y 06 (generalmente clasificadas como E. coli serogrupo clásico, no enterohemorrágico). Es fundamental para el clínico conocer la epidemiología, sintomatología y los exámenes que permitan un diagnóstico rápido para manejo terapéutico adecuado, y así evitar las complicaciones enunciadas anteriormente.

Shiga toxin producing E.coli (STEC), also known as enterohemorragic E.coli (EHEC), are responsible for a wide variety of clinical manifestations, both epidemic and sporadic. These include abdominal pain, no fever to mild fever, with or without vomits, diarrhea (bloody or not) and extraintestinal complications, such as haemolytic uremic syndrome in about 5 to 6 percent of children, and trombocitopenic purpura in 1 percent adults. The main virulence factor involved is the production of STX (Shiga toxin). In Chile there is marked prevalence of E.coli serogroup 0157 :H7 in these cases, although it has been associated also to E.coli 026, 055,02,0117 and 06, considered as classic serogroup (not enterohemorragic). It is of outmost importance for clinicians to be aware of symptoms and signs of this disease, as well as diagnostic methods that allow a prompt and adequate treatment, in order to avoid complications.

Canales Endémicos y Marcadores de Resistencia Bacteriana, en Instituciones de Tercer nivel de Bogota, Colombia / Endemic channels and bacterial resistance markers in third-level hospitals in Bogotá, Colombia

Objetivo: Determinar los perfiles de resistencia bacteriana y los canales endémicos en 14 instituciones de tercer nivel. Métodos: Población. Bogotá-Colombia, 14 hospitales pertenecientes al Grupo para el Control de la Resistencia Bacteriana de Bogotá (GREBO). A partir de la información obtenida de los laboratorios de microbiología de los centros participantes (métodos automatizados y manuales), se creó una base de datos usando los programas BacLink 2.0 y Whonet 5.3, durante los años 2001, 2002 y 2003. Los perfiles de susceptibilidad fueron hallados acordes a las normas de la nCCLS (2003). Se realizó un análisis descriptivo de los diferentes marcadores de resistencia y se determinó el canal endémico de la resistencia para los hospitales, utilizando los puntos entre los percentiles 25 y 75 por ciento, para cada mes durante el periodo de estudio. Resultados: Se analizaron 84664 aislamientos. Los más frecuentes fueron Escherichia coli, Staphylococcus aureus, Staphylococcus coagulasa negativo, Klebsiella pneumoniae y Pseudomonas aeruginosa. La resistencia para los años 2001, 2002 y 2003 fue respectivamente: S. aureus meticilino resistente: 41 por ciento, 48 por ciento, 48 por ciento; Staphylococcus coagulasa negativo resistente a oxacilina: 75 por ciento, 73 por ciento, 72 por ciento; E. faecium vancomicina resistente: 14 por ciento, 9 por ciento, 3 por ciento; K. pneumoniae resistente a cefalosporinas de tercera generación: 37 por ciento, 25 por ciento, 23 por ciento; P. aeruginosa resistente a imipenem: 24 por ciento, 22 por ciento, 17 por ciento; P. aeruginosa resistente a ciprofloxacina: 46 por ciento, 46 por ciento, 35 por ciento, A. baumannii resistente a imipenem: 11 por ciento, 29 por ciento, 39 por ciento. Los canales endémicos evidenciaron la problemática de la resistencia bacteriana, esta se centró en la presencia de S. aureus meticilino resistente y en el marcado incremento de la resistencia de A. baumanni a imipenem. Conclusiones: Se destacan los altos porcentajes de resistencia para todos los marcadores de impacto epidemiológico a nivel hospitalario especialmente en Unidades de Cuidado Intensivo.

Epidemiologia del síndrome urémco hemolítico en Argentina: diagnóstico del agente etiológico, reservorios y vías de transmissión / The epidemiology of hemolytic uremic syndrome in Argentina. Diagnosis of the etiologic agent, reservoirs and routes of transmission

Shiga toxin-producing Escherichia coli (STEC) cause sporadic cases and outbreaks of nonbloody and bloody diarrhea, and hemolytic uremic syndrome (HUS). E. coil O157:H7 is the most prevalent STEC serotype. However, other serotypes (O26:H11; O103:H2; O111:NM; O121:H19; O145:NM, among others) can cause a similar disease spectrum. Shiga toxins (Stx1, Stx2, and their variants), intimin, and enterohemolysin are the main virulence factors. Three different diagnostic criteria are used to determine the frequency of STEC infection: 1) isolation and characterization of STEC strains; 2) detection of specifically neutralizable free fecal Stx; and 3) Serological tests to detect Stx-antibodies. The surveillance of the STEC strains is performed using subtyping techniques: a) genotyping of Stx and eae by PCR-RFLP; b) phage typing of E. coil O157 strains; and c) pulsed-field gel electrophoresis. STEC O157 and non-O157 strains are recovered from clinic, animal, food and environmental samples, and E. coli O157:H7, a Stx2 and Stx2c producer, harboring eae and ehxA genes, is the most common serotype. During a prospective case-control study conducted to evaluate risk factors for sporadic STEC infection in Mendoza Province and Buenos Aires City and its surroundings during 2001-2002, exposures associated with risk included eating undercooked beef, contact with a child < 5 years with diarrhea and living in or visiting a place with farm animals. Both washing hands after handling raw beef, and eating fruits and vegetables were frequently protective. Strategies of prevention and control are necessary to decrease the incidence of STEC infections in Argentina.

El rol epidemiológico de las mascotas en el ciclo de transmisión urbana de cepas STEC / Epidemiological role of pets in urban transmission cycle of STEC

Escherichia coli is an important constitutional element of both animal's and men's microbiote. Rumiants in general and bovine in particular have been pointed out as reservoirs of shigatoxigenic (STEC) and enterohemorragic strains (EHEC). These strains are rarely reported in pets isolations and are badly documented. Revisions of the pathogenic role of E. coli in small animals, particulary based on intestinal and urogenital isolations, involve in a very low proportion the STEC strains. In dogs, ocasional isolations are reported, from feces coming from both healthy and diarreic dogs. The STEC intestinal strains prevalence in dogs and cats from urban centers, based on the habit of including regular or ocasional raw meat in their diet, should not be understimated.

Aislamiento de Escherichia coli productor de toxina Shiga durante un brote de gastroenteritis en un Jardín Maternal de la Ciudad de Mar del Plata / Isolation of Shiga toxin-producing Escherichia coli strains during a gastrointestinal outbreak at a day care center in Mar del Plata City

Entre el 15 de octubre y el 8 de noviembre de 2003 ocurrió un brote de gastroenteritis en un Jardín Maternal de un Hospital de la ciudad de Mar del Plata. Catorce de un total de 80 niños (17,5%), edad promedio 23,6 ± 13,9 meses, presentaron diarrea, y un caso evolucionó a síndrome urémico hemolítico. La madre de uno de los afectados presentó diarrea simultáneamente. No se pudo establecer el origen del brote, pero probablemente la transmisión haya sido fundamentalmente persona a persona. Las prácticas habituales en el lactario del jardín maternal, y las condiciones inadecuadas de infraestructura y hábitos de higiene de la cocina del Hospital fueron señalados como factores de riesgo. En un caso se detectó Escherichia coli productor de toxina Shiga (STEC) O103:H2, y STEC O26:H11 en otro. En el niño infectado por STEC O26:H11, la excreción se extendió por un período de 37 días. La no detección de STEC en aquellos casos en los cuales el intervalo entre el inicio de los síntomas y la toma de muestra fue mayor a 6 días, enfatiza la necesidad de la recolección temprana de especímenes. Las principales conclusiones de este estudio fueron la necesidad de establecer normas óptimas de higiene, informar rápidamente la ocurrencia de casos de gastroenteritis y confirmar la negativización de la excreción del patógeno.

From October 15 to November 8, 2003, a gastrointestinal outbreak occurred at a day care center in a Hospital in Mar del Plata City. Fourteen out of 80 (17.5%) children, mean age 23.6 ± 13.9 months, and the mother of one of them had diarrhea. One case developed hemolytic uremic syndrome. No conclusive evidence of the origin of the outbreak was found, but the epidemic curve suggested person-to-person spread. The usual practices at the place where infant milk formula was prepared at the day care center, together with the inadequate infrastructure conditions and hygiene practices at the kitchen of the hospital, were considered risk factors. One case had Shiga toxin-producing Escherichia coli (STEC) O103:H2 infection and other STEC O26:H11.The duration of shedding for the child with O26:H11 infection was 37 days. In the other symptomatic children, the pathogen was not recovered from fecal samples collected 6 or more days after the onset of the illness. This emphasizes that the collection of early samples is necessary to recover STEC strains. In order to prevent and control enteric diseases in day care facilities the following measures are necessary: optimal hygiene standards, early case reporting, and exclusion of those who remain culture-positive.

Escherichia coli enterohemorragica y sindrome uremico hemolitico en Argentina / Enterohemorrhagic escherichia coli and hemolytic-uremic syndrome in Argentina

El síndrome urémico hemolítico (SUH) es un desorden multisistémico caracterizado por presentar insuficiencia renal aguda, anemia hemolítica microangiopática y trobocitopenia. Constituye la principal causa de insuficiencia renal aguda y la segunda causa de insuficiencia renal crónica y de transplante renal en niños en la Argentina. Actualmente, nuestro país presenta el registro más alto de SUH en todo el mundo, con aproximadamente 420 casos nuevos declarados anualmente y una incidencia de 12.2/100 000 niños menores de 5 años de edad. Se reconocen múltiples agentes etiológicos, aunque se considera a la infección por Escherichia coli enterohemorrágica (EHEC) como la principal etiología de SUH. La gran mayoría de brotes epidémicos y casos esporádicos en humanos se han asociado con el serotipo 0157:H7, aunque otros serotipos han sido también aislados, y éstos son un subgrupo de E.coli verocitotoxigénico (VTEC). El bovino es considerado el principal reservario de VTEC. El contagio al hombre frecuentemente se debe al consumo de alimentos cárneos y lácteos contaminados, deficientemente cocidos o sin pasteurizar, o al contacto directo con los animales o con sus heces, consumo de agua, frutas o verduras contaminadas. También puede producirse contagio mediante el contacto interhumano.