Vibrio cholerae—An emerging pathogen in Austrian bathing waters?

[1]  Muhammad Shariful Islam,et al.  Implementation and Delivery of Oral Cholera Vaccination Campaigns in Humanitarian Crisis Settings among Rohingya Myanmar nationals in Cox’s Bazar, Bangladesh , 2023, Vaccines.

[2]  A. Farnleitner,et al.  First report on the occurrence of Vibrio cholerae nonO1/nonO139 in natural and artificial lakes and ponds in Serbia: Evidence for a long‐distance transfer of strains and the presence of Vibrio paracholerae , 2023, Environmental microbiology reports.

[3]  A. Vaziri,et al.  Antimicrobial resistance among clinical Vibrio cholerae non-O1/non-O139 isolates: systematic review and meta-analysis , 2022, Pathogens and global health.

[4]  A. Weil,et al.  Update on Environmental and Host Factors Impacting the Risk of Vibrio cholerae Infection. , 2021, ACS infectious diseases.

[5]  R. Woolway,et al.  Increasing maximum lake surface temperature under climate change , 2021, Climatic Change.

[6]  M. Heimesaat,et al.  Chronic otitis media following infection by non-01/non-0139 Vibrio cholerae: A case report and review of the literature , 2020, European journal of microbiology & immunology.

[7]  A. Okoh,et al.  Antibiotic Susceptibility Testing (AST) Reports: A Basis for Environmental/Epidemiological Surveillance and Infection Control Amongst Environmental Vibrio cholerae , 2020, International journal of environmental research and public health.

[8]  C. Baker-Austin,et al.  Global emergence of environmental non-O1/O139 Vibrio cholerae infections linked with climate change: a neglected research field? , 2020, Environmental microbiology.

[9]  M. Pietroni Case management of cholera. , 2020, Vaccine.

[10]  A. Farnleitner,et al.  Phenotypic and Genotypic Antimicrobial Resistance Traits of Vibrio cholerae Non-O1/Non-O139 Isolated From a Large Austrian Lake Frequently Associated With Cases of Human Infection , 2019, Front. Microbiol..

[11]  Wei-Dar Chen,et al.  Vibrio cholerae non-O1 - the first reported case of keratitis in a healthy patient , 2019, BMC Infectious Diseases.

[12]  Christopher K Allen,et al.  Vibrio cholerae residing in food vacuoles expelled by protozoa are more infectious in vivo , 2019, Nature Microbiology.

[13]  I. Izhaki,et al.  Accumulating evidence suggests that some waterbird species are potential vectors of Vibrio cholerae , 2019, PLoS pathogens.

[14]  Tamaki Mizuno,et al.  Comparative proteomic analysis to characterize temperature-induced viable but non-culturable and resuscitation states in Vibrio cholerae. , 2019, Microbiology.

[15]  J. Hammerl,et al.  Environmental and Clinical Strains of Vibrio cholerae Non-O1, Non-O139 From Germany Possess Similar Virulence Gene Profiles , 2019, Front. Microbiol..

[16]  A. Farnleitner,et al.  Application of three different methods to determine the prevalence, the abundance and the environmental drivers of culturable Vibrio cholerae in fresh and brackish bathing waters , 2018, Journal of applied microbiology.

[17]  S. Smith,et al.  Recurrent cholera epidemics in Africa: which way forward? A literature review , 2018, Infection.

[18]  M. Waldor,et al.  Vibrio spp. infections , 2018, Nature Reviews Disease Primers.

[19]  R. Bentham,et al.  Quantitative Microbial Risk Assessment and Opportunist Waterborne Infections–Are There Too Many Gaps to Fill? , 2018, International journal of environmental research and public health.

[20]  I. Kempf,et al.  Antimicrobial Susceptibility among Urban Wastewater and Wild Shellfish Isolates of Non-O1/Non-O139 Vibrio cholerae from La Rance Estuary (Brittany, France) , 2017, Front. Microbiol..

[21]  I. Izhaki,et al.  Fish as Hosts of Vibrio cholerae , 2017, Front. Microbiol..

[22]  A. Farnleitner,et al.  High genetic diversity of Vibrio cholerae in the European lake Neusiedler See is associated with intensive recombination in the reed habitat and the long-distance transfer of strains , 2017, Environmental microbiology.

[23]  R. Colwell,et al.  Climate influence on Vibrio and associated human diseases during the past half-century in the coastal North Atlantic , 2016, Proceedings of the National Academy of Sciences.

[24]  J. Triñanes,et al.  Heat Wave–Associated Vibriosis, Sweden and Finland, 2014 , 2016, Emerging infectious diseases.

[25]  M. Blokesch,et al.  Regulation of competence-mediated horizontal gene transfer in the natural habitat of Vibrio cholerae. , 2016, Current opinion in microbiology.

[26]  S. Maraki,et al.  Non-O1, non-O139 Vibrio cholerae bacteremic skin and soft tissue infections , 2016, Infectious diseases.

[27]  A. Zoufaly,et al.  Necrotizing fasciitis due to Vibrio cholerae non-O1/non-O139 after exposure to Austrian bathing sites , 2016, Wiener klinische Wochenschrift.

[28]  B. Guerra,et al.  Survey on antimicrobial resistance patterns in Vibrio vulnificus and Vibrio cholerae non-O1/non-O139 in Germany reveals carbapenemase-producing Vibrio cholerae in coastal waters , 2015, Front. Microbiol..

[29]  M. Quilici,et al.  Non-O1, non-O139 Vibrio cholerae bacteraemia: case report and literature review , 2015, SpringerPlus.

[30]  Luis E Escobar,et al.  A global map of suitability for coastal Vibrio cholerae under current and future climate conditions. , 2015, Acta tropica.

[31]  Anna Lena Lopez,et al.  Updated Global Burden of Cholera in Endemic Countries , 2015, PLoS neglected tropical diseases.

[32]  Z. Bi,et al.  A case of non-O1/non-O139 Vibrio cholerae septicemia and meningitis in a neonate. , 2015, International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases.

[33]  J. Baudart,et al.  Dynamics of V ibrio cholerae abundance in Austrian saline lakes, assessed with quantitative solid‐phase cytometry , 2015, Environmental microbiology.

[34]  C. Chao,et al.  Clinical Manifestations of Non-O1 Vibrio cholerae Infections , 2015, PloS one.

[35]  Bradd J. Haley,et al.  Vibrio metoecus sp. nov., a close relative of Vibrio cholerae isolated from coastal brackish ponds and clinical specimens. , 2014, International journal of systematic and evolutionary microbiology.

[36]  Bradd J. Haley,et al.  Genomic and Phenotypic Characterization of Vibrio cholerae Non-O1 Isolates from a US Gulf Coast Cholera Outbreak , 2014, PloS one.

[37]  Alison F. Takemura,et al.  Associations and dynamics of Vibrionaceae in the environment, from the genus to the population level , 2013, Front. Microbiol..

[38]  S. Faruque,et al.  Genetic and phenotypic analysis of Vibrio cholerae non-O1, non-O139 isolated from German and Austrian patients , 2013, European Journal of Clinical Microbiology & Infectious Diseases.

[39]  G. Nair,et al.  Population Structure and Evolution of Non-O1/Non-O139 Vibrio cholerae by Multilocus Sequence Typing , 2013, PloS one.

[40]  R. Colwell,et al.  Ocean Warming and Spread of Pathogenic Vibrios in the Aquatic Environment , 2013, Microbial Ecology.

[41]  D. Vugia,et al.  Increasing rates of vibriosis in the United States, 1996-2010: review of surveillance data from 2 systems. , 2012, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[42]  R. Colwell,et al.  Long-term effects of ocean warming on the prokaryotic community: evidence from the vibrios , 2011, The ISME Journal.

[43]  R. Colwell,et al.  Interaction of Vibrio cholerae non-O1/non-O139 with Copepods, Cladocerans and Competing Bacteria in the Large Alkaline Lake Neusiedler See, Austria , 2010, Microbial Ecology.

[44]  S. Huhulescu,et al.  Laboratory-acquired Vibrio cholerae O1 infection in Austria, 2008. , 2010, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.

[45]  R. Dieckmann,et al.  Rapid identification and characterization of Vibrio species using whole‐cell MALDI‐TOF mass spectrometry , 2010, Journal of applied microbiology.

[46]  M. Tobin-D'Angelo,et al.  Severe diarrhea caused by cholera toxin-producing vibrio cholerae serogroup O75 infections acquired in the southeastern United States. , 2008, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[47]  A. Farnleitner,et al.  Quantitative microbial faecal source tracking with sampling guided by hydrological catchment dynamics , 2008, Environmental microbiology.

[48]  Andrew T. Revel,et al.  Type VI secretion system translocates a phage tail spike-like protein into target cells where it cross-links actin , 2007, Proceedings of the National Academy of Sciences.

[49]  J. Mekalanos,et al.  A type III secretion system in Vibrio cholerae translocates a formin/spire hybrid-like actin nucleator to promote intestinal colonization. , 2007, Cell host & microbe.

[50]  M. Halpern,et al.  Chironomid Egg Masses as a Natural Reservoir of Vibrio cholerae Non-O1 and Non-O139 in Freshwater Habitats , 2004, Microbial Ecology.

[51]  S. Salzberg,et al.  DNA sequence of both chromosomes of the cholera pathogen Vibrio cholerae , 2000, Nature.

[52]  V. DiRita,et al.  Molecular cloning and transcriptional regulation of ompT, a ToxR‐repressed gene in Vibrio cholerae , 2000, Molecular microbiology.

[53]  R. Clayton,et al.  Identification of a vibrio cholerae RTX toxin gene cluster that is tightly linked to the cholera toxin prophage. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[54]  E. Boedeker,et al.  A Vibrio cholerae pathogenicity island associated with epidemic and pandemic strains. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[55]  Matthew K. Waldor,et al.  Lysogenic Conversion by a Filamentous Phage Encoding Cholera Toxin , 1996, Science.

[56]  V. Sperandio,et al.  The OmpU outer membrane protein, a potential adherence factor of Vibrio cholerae , 1995, Infection and immunity.

[57]  R. Colwell,et al.  Enterobacterial repetitive intergenic consensus sequences and the PCR to generate fingerprints of genomic DNAs from Vibrio cholerae O1, O139, and non-O1 strains , 1995, Applied and environmental microbiology.

[58]  J. Ravel,et al.  Temperature-induced recovery of Vibrio cholerae from the viable but nonculturable state: growth or resuscitation? , 1995, Microbiology.

[59]  S. Arya Utility of rapid monoclonal antibody-based coagglutination test for direct detection of Vibrio cholerae O1 and/or O139 in stool samples. , 1995, Journal of Clinical Microbiology.

[60]  T. Barrett,et al.  Molecular characterization of Vibrio cholerae O1 strains by pulsed-field gel electrophoresis , 1994, Journal of clinical microbiology.

[61]  T. Popović,et al.  Epidemiologic application of a standardized ribotype scheme for Vibrio cholerae O1 , 1993, Journal of clinical microbiology.

[62]  J. Kaper,et al.  Accessory cholera enterotoxin (Ace), the third toxin of a Vibrio cholerae virulence cassette. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[63]  P. Manning,et al.  Cloning of the structural gene (hly) for the haemolysin of Vibrio cholerae El Tor strain 017. , 1984, Gene.

[64]  N. Howard-Jones,et al.  Robert Koch and the cholera vibrio: a centenary. , 1984, British medical journal.

[65]  R. Colwell,et al.  Ecological relationships between Vibrio cholerae and planktonic crustacean copepods , 1983, Applied and environmental microbiology.

[66]  A. Steigerwalt,et al.  Characterization of biochemically atypical Vibrio cholerae strains and designation of a new pathogenic species, Vibrio mimicus , 1981, Journal of Clinical Microbiology.

[67]  J. Morris,et al.  Non-O group 1 Vibrio cholerae gastroenteritis associated with eating raw oysters. , 1981, American journal of epidemiology.

[68]  J. Triñanes,et al.  Non-Cholera Vibrios: The Microbial Barometer of Climate Change. , 2017, Trends in microbiology.

[69]  S. Huhulescu,et al.  Occurrence of Vibrio cholerae serogroups other than O1 and O139 in Austria , 2006, Wiener klinische Wochenschrift.