31 research outputs found

    Microbiological and 16S rRNA analysis of sulphite-reducing clostridia from river sediments in central Italy

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    <p>Abstract</p> <p>Background</p> <p>Microbiological indicators are commonly used in the assessment of public health risks associated with fecal contamination of freshwater ecosystems. Sediments are a reservoir of microorganisms, and can thus provide information on past pollution events, not obtainable through the testing of surface water. Moreover, pathogens present in sediment may represent future threats to human health. <it>Clostridium perfringens</it>, a typical colonizer of sediments, has been suggested as an alternative indicator of fecal pollution. In order to be suitable for such purpose, the microorganism should be widely distributed in contaminated environments. The objective of this study was thus to determine the composition of the anaerobic community in sediment samples of the lower Tiber basin, in central Italy, through a combined approach involving granulometric analysis of sediment samples, as well as a microbiological and molecular (16S rRNA) analysis of strains.</p> <p>Results</p> <p>Granulometry showed a similar, clayey sediment composition, in most sampling sites. The microbiological method, employing, an adaptation of the standard method, proved to be effective in isolating anaerobic bacteria from the environmental matrix for the purpose of genetic analysis. Eighty-three strains of bacteria were isolated and the partial 16S rRNA gene sequenced. While biochemical analysis detected only <it>C. perfringens </it>strains, phylogenetic analysis indicated the presence of three clusters: <it>C. perfringens, C. bifermentans </it>and <it>B. cereus</it>, comprising eight taxa. <it>C. perfringens</it>, the commonest in almost all sediment sampling sites, was present in all sites, and in both seasons (seasonal sampling was carried out only along the Tiber and Aniene rivers). None of the described genetic profiles showed complete similarity with GenBank sequences.</p> <p>Conclusion</p> <p>The study underlines the value of <it>C. perfringens </it>as an alternative microbial indicator of fecal contamination in river sediments. This is supported by the bacterium's presence in all sampling sites, and in both seasons, coupled with its detectability using commercial diagnostic kits.</p> <p>The study also illustrates the presence of an anaerobic community of considerable biodiversity in the lower Tiber basin, with <it>C. perfringens </it>as its main component. The 16S rRNA analysis, while confirming the phylogenetic relationships among isolated species, also showed haplotype patterns different from those present in the NCBI database.</p

    Hepatitis E virus in Italy: molecular analysis of travel-related and autochthonous cases

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    Human hepatitis E virus (HEV) is considered an emerging pathogen in industrialized countries. The aim of the present study was to contribute to the body of knowledge available on the molecular epidemiology of acute hepatitis E in Italy. Three sets of HEV-specific primers targeting the ORF1 and ORF2 were used to examine serum samples collected from acute hepatitis patients positive for anti-HEV IgG and/or IgM, between 2007 and 2010. Seventeen patients (39.5 %) tested HEV RNA-positive: 12 infections, due to genotype 1, were associated with travel to endemic areas (Bangladesh, India and Pakistan), while five infections, due to genotype 3, were presumably autochthonous. Risk factors identified in this group included exposure to raw seafood, pork liver sausages and wild boar. Results from the present study confirm that human HEV infection in Italy is caused by different genotypes, depending on whether the infection is travel-related or autochthonous

    emerging and potentially emerging viruses in water environments

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    Among microorganisms, viruses are best fit to become emerging pathogens since they are able to adapt not only by mutation but also through recombination and reassortment and can thus become able to infect new hosts and to adjust to new environments. Enteric viruses are among the commonest and most hazardous waterborne pathogens, causing both sporadic and outbreak-related illness. The main health effect associated with enteric viruses is gastrointestinal illness, but they can also cause respiratory symptoms, conjunctivitis, hepatitis, central nervous system infections, and chronic diseases. Non-enteric viruses, such as respiratory and epitheliotrophic viruses are not considered waterborne, as they are not readily transmitted to water sources from infected individuals. The present review will focus on viral pathogens shown to be transmitted through water. It will also provide an overview of viruses that had not been a concern for waterborne transmission in the past, but that may represent potentially emerging waterborne pathogens due to their occurrence and persistence in water environments

    An outbreak of aseptic meningitis due to echovirus 30 associated with attending school and swimming in pools

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    Summary Objectives To identify the risk factors of an outbreak of meningitis associated with echovirus 30-infection that occurred in Rome, Italy, in late 1997 among children from two different schools. Methods A case-control study was carried out. A case was defined as a child from either of the two schools, A or B, who presented meningitis-like (fever, headache and vomiting), diarrhea, or respiratory tract symptoms. All asymptomatic students were included in the analysis as controls. Results Among 446 pupils (80%) who answered the questionnaire, 68 met the case definition. Twenty pupils developed a meningitis-like illness. Echovirus 30 was isolated from cerebrospinal fluid (CSF) in four and from stools in six. Forty-eight pupils reported other symptoms. The attack rate was 10.8% in school A and 0.8% in school B for meningitis-like illness; it was 12% and 10%, respectively, for other enterovirus-like illnesses. The risk of meningitis-like illness was higher among children attending school A (crude OR=14.9; 95% CI=4.3–52.1), among children using any public pool (OR=3.8; 95% CI=1.5–9.9) and those using an outside swimming pool X (OR=13.4; 95% CI=2.7–65.8 versus no swimming pool and OR=8.3; 95% CI=1.1–62.6 versus other pools). The epidemic curve appears to suggest a person-to-person transmission. Conclusions The epidemic occurred by person-to-person transmission in a number of classrooms and at swimming pool X

    Antigenic, Immunologic and Genetic Characterization of Rough Strains B.abortus RB51, B.melitensis B115 and B.melitensis B18

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    The lipopolysaccharide (LPS) is considered the major virulent factor in Brucella spp. Several genes have been identified involved in the synthesis of the three LPS components: lipid A, core and O-PS. Usually, Brucella strains devoid of O-PS (rough mutants) are less virulent than the wild type and do not induce undesirable interfering antibodies. Such of them proved to be protective against brucellosis in mice. Because of these favorable features, rough strains have been considered potential brucellosis vaccines. In this study, we evaluated the antigenic, immunologic and genetic characteristics of rough strains B.abortus RB51, B.melitensis B115 and B.melitensis B18. RB51 derived from B.abortus 2308 virulent strain and B115 is a natural rough strain in which the O-PS is present in the cytoplasm. B18 is a rough rifampin-resistan mutant isolated in our laboratory

    Recreational and drinking waters as a source of norovirus gastroenteritis outbreaks: a review and update

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    ABSTRACT The distribution of noroviruses is worldwide. In industrialized countries, noroviruses are the most common viral cause of gastroenteritis outbreaks and play an important role in sporadic gastroenteritis as well. Transmission may occur through the ingestion of contaminated foods or water, through person-to-person contact, or by way of direct contact with contaminated surfaces. Of particular importance is their ability to cause waterborne outbreaks linked either to the direct consumption of water or to its recreational uses. This article reviews the clinical manifestations and epidemiology of norovirus infection, and describes over 40 waterborne norovirus outbreaks, their respective probable sources of contamination and -where water samples were tested -the genetic types identified

    Molecular Identification and Typing of Enteroviruses Isolated from Clinical Specimens

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    Enterovirus characterization and typing require an integrated technological approach, using both immunological and molecular methods. The seventy-nine enteroviruses included in this study were isolated from cell cultures and classified as enteroviruses on the basis of an indirect immunofluorescence assay (IFA) against common enterovirus antigens and a neutralization test based on the Lim Benyesh-Melnick (LBM) pool. The final identification was carried out using a number of different molecular approaches, including reverse transcription (RT)-PCR, restriction fragment length polymorphism (RFLP) analysis, and nucleotide sequence analysis of amplicons from various regions of the genome. Twenty-seven poliovirus strains (set A) were identified using LBM pool analysis, RFLP analysis, and IFA. Use of the LBM pool method showed that 35 out of 79 strains were nonpoliovirus (set B), while 17 specimens tested negative (set C). Sets B and C were further investigated. Twenty-five specimens from set B and 8 from set C were identified by IFA. Six specimens from set B and five from set C were identified by RFLP analysis. Specimens in sets B and C were treated using RT-PCR; the resulting amplicons were subjected to nucleotide sequence analysis. The VP1 region was analyzed using two sets of deoxyinosine degenerate primers. Where the VP1 test gave no signal, the VP4-VP2 region was analyzed. Where both tests were negative, a 5′ noncoding region analysis was performed. Interestingly, analysis of the VP1 region showed that two specimens from set C were strains of enterovirus 71, whose presence was unexpected in Italy. As in other European epidemiological studies, the strain found most frequently was echovirus 30

    Emerging and potentially emerging viruses in water environments

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    Among microorganisms, viruses are best fit to become emerging pathogens since they are able to adapt not only by mutation but also through recombination and reassortment and can thus become able to infect new hosts and to adjust to new environments. Enteric viruses are among the commonest and most hazardous waterborne pathogens, causing both sporadic and outbreak-related illness. The main health effect associated with enteric viruses is gastrointestinal illness, but they can also cause respiratory symptoms, conjunctivitis, hepatitis, central nervous system infections, and chronic diseases. Non-enteric viruses, such as respiratory and epitheliotrophic viruses are not considered waterborne, as they are not readily transmitted to water sources from infected individuals. The present review will focus on viral pathogens shown to be transmitted through water. It will also provide an overview of viruses that had not been a concern for waterborne transmission in the past, but that may represent potentially emerging waterborne pathogens due to their occurrence and persistence in water environments
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