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Seroprevalence and associated risk factors of Toxoplasma gondii infection in domestic animals in the OR Tambo District, South AfricaTagwireyi, Whatmore Munetsi January 2016 (has links)
Toxoplasma gondii is a single-celled parasite that has a wide range of hosts including humans. A cross-sectional survey was conducted to investigate T. gondii seroprevalence and associated risk factors in small ruminants, pigs, poultry and cats in the Oliver Reginald Tambo District in the Eastern Cape in South Africa between June 2016 and October 2016. Household-level and animal-level data were collected using a close-ended questionnaire. One sample of each present species was collected in each household. The Toxoreagent ®, Mast Group, United Kingdom, latex agglutination test, was used for T. gondii antibody detection. Positive samples had agglutination patterns at dilutions of 1:64 or greater, except for chickens, whose cut off titre was 1:32. A household was classified as T. gondii seropositive if at least one species tested positive. The study revealed that 78 out of 121 sheep (64.46%), 69 out of 128 goats (53.91%), 36 out of 106 pigs (33.96%), 35 out of 109 cats (32.11%) and 46 out of 137 chickens (33.58%) were seropositive for the parasite. Seropositivity was assessed for association with potential risk factors. Age, location, climate, animal production system, rodent control, cat-feed access and cat faecal disposal were found to be significantly associated with seropositivity using the Chi-Squared test or odds ratio confirmed by the Fisher's exact test. The relatively high seroprevalence of T. gondii detected in this study suggests that the infection T. gondii poses a substantial public health risk through the consumption of infected raw or undercooked meat infected with T.gondii cysts as well as contact with cat faeces infected with T. gondii oocysts. / Dissertation (MSc)--University of Pretoria, 2016. / Veterinary Tropical Diseases / MSc / Unrestricted
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Characterization of the Capsular Polysaccharide of Haemophilus parasuis and its Application in the Diagnosis and Prevention of Glasser's DiseaseHyman, Anne Catherine Michalenka 20 April 2015 (has links)
Haemophilus parasuis is a Gram-negative bacterium responsible for Glasser's Disease in pigs, though little is known regarding its antigenic or virulence factors. Our goals were to characterize the H. parasuis capsular polysaccharide (CP), determine its role in serotype-specificity and virulence, determine if CP is immunogenic, and develop diagnostic and protective products to prevent rampant H. parasuis infection within swine herds. Material from H. parasuis was purified using carbohydrate isolation techniques and compared to CPs from other Pasteurellaceae. Rabbits were immunized with CPs to generate antisera for microscopy, immunoassays, and bactericidal assays. CP antisera were conjugated to latex particles to create an agglutination assay for detection and typing of H. parasuis. CP was conjugated to Cholera Toxin B, and used to immunize mice and piglets before challenge with H. parasuis to determine its protective efficacy against Glasser's Disease. Broth-grown cells expressed CP, which reacted with antisera in microscopy and immunoassays. Broth-grown H. parasuis cells were serum-resistant unless homologous anti-CP serum was present. In contrast, agar-grown cells did not react with antisera in immunoassays, and cells were susceptible to killing by normal swine serum. CP was not expressed on the surface of agar-grown cells unless supplemented with bicarbonate. The addition of bicarbonate also contributed to the variability in CP quantity and upregulation of genes in the CP locus. Sensitized latex particles agglutinated strongest with homologous H. parasuis CPs, cells, and agar-grown cell lysates, but also reacted weakly with higher concentrations of heterologous CPs. The latex beads did not agglutinate with non-H. parasuis swine bacterial pathogens. Mice immunized with the CP-CTB conjugate produced a significantly higher IgG2/Th2 response than unimmunized mice or mice immunized with only CP, and immunized mice had fewer bacteria in their tissues that unimmunized mice. The CP conjugate produced a robust IgG antibody response to CP when used to immunized piglets, but because the control animals also survived H. parasuis challenge, the protective efficacy remains inconclusive. Therefore, the H. parasuis CP is the antigen that confers serotype identity, and can be implemented in methods and help direct future research in disease prevention and serotype tracking in H. parasuis infections. / Ph. D.
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Detecção do vírus dengue pela técnica de aglutinação do látex modelo experimental.Luppino, Plinio Luis 04 June 2007 (has links)
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Previous issue date: 2007-06-04 / Dengue is the arthropod-borne transmitted viral disease of highest worldwide prevalence in mortality and morbidity. The proportion is pandemic ranging 1.6 million of infected patients yearly. Clinical presentation associated to epidemiological factors such as dengue prevalence in the patient s origin have been the only mean for early diagnosis. Laboratorial diagnosis, the conclusive, requires several days when there is viral isolation. Serological methods depend on high level of specific antibodies, and molecular methods are not available for the majority of laboratories of diagnosis and routine. The purpose of this study was to develop an agglutination method using latex to detect dengue virus, using biological samples of mice infected with dengue 1 Mochizuki strain by intracerebral via, and anti-dengue 1 specific antibodies from immunized mice. According to the results, this method was feasible for the dengue viruses diagnosis in positive samples of experimental animals. It provides further approaches for rapid detection of dengue in susceptible populations during the first days of the disease. / A dengue é a doença viral, transmitida por artrópode, de maior prevalência mundial em morbidade e mortalidade. Alcança proporções pandêmicas, estimando-se em 1,6 milhões de doentes anualmente. Manifestações clínicas características, associadas a fatores epidemiológicos, como prevalência da dengue na região de origem do paciente, têm sido os únicos instrumentos de diagnóstico precoce. O diagnóstico laboratorial, que é definitivo, demanda vários dias, quando realizado o isolamento viral. Métodos sorológicos dependem de níveis elevados de anticorpos específicos e os métodos moleculares não estão disponíveis para a maioria dos laboratórios de diagnóstico e rotina. Este estudo teve como objetivo desenvolver método de aglutinação do látex para a detecção do vírus dengue, utilizando amostras biológicas de camundongos infectados por via intracerebral com dengue 1, cepa Mochizuki e anticorpos específicos anti-dengue 1, obtidos de camundongos imunizados. Os resultados obtidos demonstraram a viabilidade deste método para diagnóstico do vírus Dengue em amostras positivas de animais de experimentação, abrindo novas perspectivas para o diagnóstico precoce da dengue na população susceptível, durante os primeiros dias de sintomas.
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Desenvolvimento de um teste rápido de aglutinação em látex para o diagnóstico de Escherichia coli enteropatogênica e Escherichia coli produtora da toxina de Shiga / Development of a rapid latex agglutination test for the diagnosis of enteropathogenic Escherichia coli and Shiga toxin-producing Escherichia coliSantos, Anna Raquel Ribeiro dos 09 May 2014 (has links)
Globalmente ocorrem cerca de 800.000 mortes de crianças menores de cinco anos associadas à diarreia, principalmente na África subsaariana, sul da Ásia e América Latina. Dentre os patógenos causadores de diarreia, Escherichia coli diarreiogênica (DEC) é o agente etiológico bacteriano mais comum, incluindo E. coli enteropatogênica (EPEC) e E. coli produtora da toxina de Shiga e seu subgrupo enterohemorrágica (STEC/EHEC). Os dados epidemiológicos indicam a importância do diagnóstico precoce e sua realização em locais com pouca infraestrutura. Desta forma o objetivo deste trabalho foi o desenvolvimento de um teste rápido, sensível e específico para o diagnóstico de EPEC e STEC/EHEC. Primeiramente, foram definidas diferentes condições do cultivo bacteriano: Dulbecco\'s modified Eagle\'s (DMEM), DMEM contendo 1% de triptona e DMEM pré-condicionado para o cultivo dos isolados de EPEC/EHEC e avaliação da produção/secreção das proteínas secretadas EspA e EspB, utilizando anticorpos monoclonais (MAb) e policlonais (PAb) anti-EspA ou anti-EspB por ELISA indireto. Para a avaliação da liberação das toxinas de Shiga para o sobrenadante do cultivo bacteriano de STEC/EHEC, foram testados diferentes condições de tratamento, o cultivo bacteriano foi tratado com Triton X-100 e o sedimento foi tratado com tampão de lise B-PER utilizando MAb e PAb anti-Stx1 ou anti-Stx2 por ELISA de captura. Subsequentemente, foi desenvolvido e avaliado o teste de aglutinação em látex para a detecção de EspB em isolados de EPEC/EHEC, e Stx1 e Stx2 em isolados de STEC/EHEC. EspB foi definida como biomarcador, o MAb anti-EspB como ferramenta para o diagnóstico de EPEC/EHEC, e a condição ideal para a produção/secreção de EspB foi o cultivo em DMEM. Para o diagnóstico de STEC/EHEC a condição ideal para liberação das toxinas Stx foi o tratamento do cultivo com Triton X-100. Tanto o ELISA, como a aglutinação em látex apresentaram sensibilidades e especificidades exigidas para testes diagnósticos de doenças negligenciadas em países em desenvolvimento e os testes de aglutinação em látex para a detecção destes patógenos foram precisos, rápidos e fáceis de executar, sendo portanto promissores para a utilização em laboratórios com mínima infraestrutura. / There are 800,000 deaths associated with diarrhea worldwide in children under five, and these are mainly in sub-Saharan Africa, Southeast Asia and Latin America. Among the causative pathogens of diarrhea, diarrheagenic Escherichia coli (DEC) is the most common bacterial etiological agent, including enteropathogenic E. coli (EPEC) and Shiga toxin-producing E. coli and its subgroup enterohemorrhagic E. coli (STEC/EHEC). Epidemiological data indicate the importance of early diagnosis and its realization in places with limited resources. Therefore, the objective of this work was to develop a rapid, sensitive and specific test for the diagnosis of EPEC and STEC/EHEC. First, different bacterial growth conditions were evaluated: Dulbecco\'s modified Eagle\'s medium (DMEM) or DMEM containing 1% tryptone, and DMEM pre-conditioned with EPEC/EHEC isolates. The production/secretion of the secreted proteins EspA and EspB was determined by indirect ELISA utilizing anti-EspA or anti-EspB monoclonal (MAb) and polyclonal (PAb) antibodies. Different treatments were tested for their effect on the release of Shiga toxins into the medium of STEC/EHEC bacterial cultures. The bacterial culture supernatant was treated with Triton X-100, and the sediment was treated with B-PER lysis buffer. The toxins release was determined by capture ELISA using anti-Stx1 or anti-Stx2 MAb and PAb. Subsequently, a latex agglutination test was developed and evaluated for the detection of EspB in EPEC/EHEC isolates and of Stx1 and Stx2 in STEC/EHEC isolates. EspB was defined as the biomarker and anti-EspB MAb as the tool for the diagnosis of EPEC/EHEC. The ideal conditions for the production/secretion of EspB were cultivation in DMEM. For the diagnosis of STEC/EHEC, the ideal conditions for the release of Stx were Triton X-100 treatment. ELISA as well as latex agglutination showed the sensitivities and specificities required for diagnostic tests of neglected diseases in developing countries. The latex agglutination test for the detection of these pathogens was precise, rapid and easy to perform, thereby being promising for their utilization in laboratories with limited resources.
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Desenvolvimento de um teste rápido de aglutinação em látex para o diagnóstico de Escherichia coli enteropatogênica e Escherichia coli produtora da toxina de Shiga / Development of a rapid latex agglutination test for the diagnosis of enteropathogenic Escherichia coli and Shiga toxin-producing Escherichia coliAnna Raquel Ribeiro dos Santos 09 May 2014 (has links)
Globalmente ocorrem cerca de 800.000 mortes de crianças menores de cinco anos associadas à diarreia, principalmente na África subsaariana, sul da Ásia e América Latina. Dentre os patógenos causadores de diarreia, Escherichia coli diarreiogênica (DEC) é o agente etiológico bacteriano mais comum, incluindo E. coli enteropatogênica (EPEC) e E. coli produtora da toxina de Shiga e seu subgrupo enterohemorrágica (STEC/EHEC). Os dados epidemiológicos indicam a importância do diagnóstico precoce e sua realização em locais com pouca infraestrutura. Desta forma o objetivo deste trabalho foi o desenvolvimento de um teste rápido, sensível e específico para o diagnóstico de EPEC e STEC/EHEC. Primeiramente, foram definidas diferentes condições do cultivo bacteriano: Dulbecco\'s modified Eagle\'s (DMEM), DMEM contendo 1% de triptona e DMEM pré-condicionado para o cultivo dos isolados de EPEC/EHEC e avaliação da produção/secreção das proteínas secretadas EspA e EspB, utilizando anticorpos monoclonais (MAb) e policlonais (PAb) anti-EspA ou anti-EspB por ELISA indireto. Para a avaliação da liberação das toxinas de Shiga para o sobrenadante do cultivo bacteriano de STEC/EHEC, foram testados diferentes condições de tratamento, o cultivo bacteriano foi tratado com Triton X-100 e o sedimento foi tratado com tampão de lise B-PER utilizando MAb e PAb anti-Stx1 ou anti-Stx2 por ELISA de captura. Subsequentemente, foi desenvolvido e avaliado o teste de aglutinação em látex para a detecção de EspB em isolados de EPEC/EHEC, e Stx1 e Stx2 em isolados de STEC/EHEC. EspB foi definida como biomarcador, o MAb anti-EspB como ferramenta para o diagnóstico de EPEC/EHEC, e a condição ideal para a produção/secreção de EspB foi o cultivo em DMEM. Para o diagnóstico de STEC/EHEC a condição ideal para liberação das toxinas Stx foi o tratamento do cultivo com Triton X-100. Tanto o ELISA, como a aglutinação em látex apresentaram sensibilidades e especificidades exigidas para testes diagnósticos de doenças negligenciadas em países em desenvolvimento e os testes de aglutinação em látex para a detecção destes patógenos foram precisos, rápidos e fáceis de executar, sendo portanto promissores para a utilização em laboratórios com mínima infraestrutura. / There are 800,000 deaths associated with diarrhea worldwide in children under five, and these are mainly in sub-Saharan Africa, Southeast Asia and Latin America. Among the causative pathogens of diarrhea, diarrheagenic Escherichia coli (DEC) is the most common bacterial etiological agent, including enteropathogenic E. coli (EPEC) and Shiga toxin-producing E. coli and its subgroup enterohemorrhagic E. coli (STEC/EHEC). Epidemiological data indicate the importance of early diagnosis and its realization in places with limited resources. Therefore, the objective of this work was to develop a rapid, sensitive and specific test for the diagnosis of EPEC and STEC/EHEC. First, different bacterial growth conditions were evaluated: Dulbecco\'s modified Eagle\'s medium (DMEM) or DMEM containing 1% tryptone, and DMEM pre-conditioned with EPEC/EHEC isolates. The production/secretion of the secreted proteins EspA and EspB was determined by indirect ELISA utilizing anti-EspA or anti-EspB monoclonal (MAb) and polyclonal (PAb) antibodies. Different treatments were tested for their effect on the release of Shiga toxins into the medium of STEC/EHEC bacterial cultures. The bacterial culture supernatant was treated with Triton X-100, and the sediment was treated with B-PER lysis buffer. The toxins release was determined by capture ELISA using anti-Stx1 or anti-Stx2 MAb and PAb. Subsequently, a latex agglutination test was developed and evaluated for the detection of EspB in EPEC/EHEC isolates and of Stx1 and Stx2 in STEC/EHEC isolates. EspB was defined as the biomarker and anti-EspB MAb as the tool for the diagnosis of EPEC/EHEC. The ideal conditions for the production/secretion of EspB were cultivation in DMEM. For the diagnosis of STEC/EHEC, the ideal conditions for the release of Stx were Triton X-100 treatment. ELISA as well as latex agglutination showed the sensitivities and specificities required for diagnostic tests of neglected diseases in developing countries. The latex agglutination test for the detection of these pathogens was precise, rapid and easy to perform, thereby being promising for their utilization in laboratories with limited resources.
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