Introduction: Enteroaggregative Escherichia coli (EAEC) is an important agent of acute and persistent diarrhea worldwide. Few cases have been reported in healthy children. EAEC strains are characterized by aggregative adherence (AA) to HEp-2 cells, wherein bacteria are seen in “stacked brick” aggregates attaching to HEp-2 cells and usually to the glass surface between cells. Goal: To identify Enteroaggregative Escherihia coli using multiplex polymerase chain reaction (PCR) and HEp-2 adherence assay in Ulaanbaatar, Mongolia Materials and Methods: A total of 329 E. coli strains were isolated from stool with diarrhea in National Center for Communicable Diseases from July 2012 through September 2014. All specimens were processed by routine microbiological and biochemical tests in the bacteriological laboratories to identify Salmonella spp., Shigella spp. All specimens in our study were negative for these bacterial and parasitic pathogens. The biofilm formation was evaluated by the growth rate of E.coli on plastic surface. PCR assays were used to detect genes of five types of diarrheagenic E.coli (DEC). All of the DEC strains showed mannose-resistant adherence to HEp-2 cells, and aggregative adherence was predominant in these isolates. Bacterial susceptibility to antimicrobial agents determined by the Kirby Bauer disk diffusion method on Muller Hinton agar. Results: EAEC (31.9%) was the most prevalent by PCR and HEp-2 assay comparing with others. EAEC by multiplex PCR in samples (11, 3.3%), followed by enteropathogenic E.coli (EPEC) seen in 2.1%. Enterohemorrhagic E.coli (EHEC) and enteroinvasive E.coli (EIEC) were found in 7 (2.1%) and 1 (0.3%) of the samples. Enterotoxigenic E.coli (ETEC) and diffusely adhering E.coli were detected in 2 (0.6%), respectively. The evaluation of bacterial biofilm formation using 96 well plates showed 309 negative (93%), 15 weak biofilm (4.6%) and 8 moderate biofilm (2.4%) formation for E.coli and no strong biofilm forming strain was detected. Above 50% of antibiotic resistance was observed for ampicillin, trimethoprim/sulfamethoxazole, cefuroxime and cephalotin. Also, 95.4% of isolates were resistant to at least three different classes of antimicrobial agents and considered as multidrug resistance. Conclusion: EAEC is most prevalent pathogen among DEC in our samples. It is necessary to implement EAEC identifying method on Hep-2 assay in our laboratory practice.

Extraintestinal pathogenic Escherichia coli (ExPEC), the specialized strains ofE.coli that cause most extraintestinal infections, represent a major but littleappreciated health threat. Phylogenetic analysis has shown that ExPEC is composedof four main phylogenetic groups (A,B1, B2, and D) and that virulent extraintestinalstrains mainly belong to groups B2 and D.In this study, we aimed to assess therelation between adherence virulence and phylogenetic groups of ExPEC.A total of 161 E.coli samples were collected. Out of these 17 (10.6%) werefrom pus, 66 (41 %) from urine, 78 (48.4%) from cervical swab. The phylogeneticgroups and 6 virulence genes (fimH, papC, papGII, papGIII, fa/draBC,andSfa/focDE) encoding adhesins were identified by triplex PCR. Phylogeneticgroups distribution was as follows: B1 10.5%, A 24.7%, B2 25.3%, and D 38.9%. Virulence genes prevalence was fimH 90.1%, papC 23%, papGII 16.8%, papGIII1.9%, Afa/draBC 11.8%, andSfa/focDE 5.6%. The cell surface protein (curli) wasdetected 50,3% by Congo red agar. In conclusion: The most isolated strainsbelonged to the phylogenetic group B2 and D. The phylogenetic groups weresignificantly associated with some genes encoding adhesins (fimH, papC) and cellsurface protein (curli).

Extraintestinal pathogenic Escherichia coli (ExPEC), the specialized strains ofE.coli that cause most extraintestinal infections, represent a major but littleappreciated health threat. Phylogenetic analysis has shown that ExPEC is composedof four main phylogenetic groups (A,B1, B2, and D) and that virulent extraintestinalstrains mainly belong to groups B2 and D.In this study, we aimed to assess therelation between adherence virulence and phylogenetic groups of ExPEC.A total of 161 E.coli samples were collected. Out of these 17 (10.6%) werefrom pus, 66 (41 %) from urine, 78 (48.4%) from cervical swab. The phylogeneticgroups and 6 virulence genes (fimH, papC, papGII, papGIII, fa/draBC,andSfa/focDE) encoding adhesins were identified by triplex PCR. Phylogeneticgroups distribution was as follows: B1 10.5%, A 24.7%, B2 25.3%, and D 38.9%. Virulence genes prevalence was fimH 90.1%, papC 23%, papGII 16.8%, papGIII1.9%, Afa/draBC 11.8%, andSfa/focDE 5.6%. The cell surface protein (curli) wasdetected 50,3% by Congo red agar. In conclusion: The most isolated strainsbelonged to the phylogenetic group B2 and D. The phylogenetic groups weresignificantly associated with some genes encodingadhesins (fimH, papC) and cellsurface protein (curli).

Background: E-cigarettes were created in China in 2003 and smoke is produced by the transfer of liquids contained within e-cigarettes into proteins. The WHO has warned of the health effects of e-cigarettes and recommended limiting sales. Mongolia imported a total of 2047 e-cigarettes from 2019-2020 and 2.6 million e-cigarettes by 2021. That's because in the school environment, retail outlets are trading in e-cigarettes. Objective: Study of pupil and student knowledge of e-cigarette use and its effects among pupils. Research Methods: In our study, we found 421 students representing 1304 high school students at 6 high schools in Esenbulag, Altai Province, with 12 years of training, The study was conducted by a closed questionnard of 38 students representing 161 students from MSUT, 151 students representing 962 students from 1st to 6th grade, and a total of 670 youth and students. The results of the study were developed with 24 SPSS applications. Results of the study: 71.8% of participants in the study are high school students in general education, 5.7% are MSUT students and 22.5% are MNUMS students. It found that 12.5% of students surveyed and 11.7% of teens said they smoked e-cigarettes, compared with 11% of teens and students who occasionally smoked e-cigarettes. 47-73% of teens and students who smoke began smoking starting in the 10th to 11th grade, with 21.3-45.5% of the factors affecting e-cigarette use attracting friends, 9.5-13.4% responded that they were household smokers, 6.2-18.1% said they were interested in making others look attractive, while 42.5-62.4% said they knew about the harmful effects of e-cigarettes and 46-51.7% were trying to stop e-cigarettes. A study of the source of information on the effects of e-cigarettes found that 40.8-47.9% of people get it from social networks and 14.1-20.4% from TV shows. Conclusions While the vast majority of students and students know about the effects of e-cigarettes, 56.6% of the participants in the overall study smoke e-cigarettes. Information about the harmful effects of e-cigarettes is being taken from social networks by the vast majority of teenagers and young people on campus. Friends have the highest percentage of exposure to e-cigarettes because of the many factors affecting e-cigarettes.