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An investigation into various aspects of Q fever in Brisbane.Powell, O. W. (Owen Watkins), 1921- Unknown Date (has links)
No abstract available
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Serological response to Q fever antigens in natural inspection and after vaccination /Worswick, David A. January 1989 (has links) (PDF)
Thesis (M. Sc.)--University of Adelaide, Dept. of Medical Virology, 1989. / Includes bibliographical references (leaves 211-237).
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A serological survey of Q fever in ArizonaDiSalvo, Arthur F., 1932- January 1958 (has links)
No description available.
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A study of cell-mediated immunity in subjects vaccinated against Q fever and after Q fever infection /Izzo, Angelo Antonio. January 1991 (has links) (PDF)
Thesis (Ph. D.)--University of Adelaide, Dept. of Microbiology and Immunology, 1992. / Copies of author's previously published articles inserted. Includes bibliographical references.
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L'infection à Coxiella Burnetii, de la clinique à la réponse de l'hôteMelenotte, Cléa 23 November 2018 (has links)
La fièvre Q dans sa forme aiguë induit des pneumonies et des hépatites et plus rarement, dans sa forme persistante, des infections cardio-vasculaires. Sur la base des données du Centre National de Référence de la fièvre Q, de 1991 jusqu’à 2016, nous avons observé qu’à la phase aiguë, l’augmentation des anticorps anticardiolipines était associée à des complications cardiaques, neurologiques et des voies biliaires. Par ailleurs, nous avons décrit des cas de pneumopathies interstitielles associées et des cas d’endocardites aiguës. Nous avons montré l’existence d’une association entre l’infection persistante à C. burnetii, l’atteinte ganglionnaire et la survenue de cancer des ganglions, les lymphomes. L’étude comparative de la virulence de différentes souches de C. burnetii chez la souris a montré que la souche endémique et épidémique de Guyane Française était la plus virulente. / Q fever can be responsible of acute Q fever (pneumonia or hepatitis) and the infection could persist causing cardio-valvular infection. Based on the database of the national reference center for Q fever, from 1991 to 2016, we observed that the elevation of anticardiolipin antibodies was associated with acute Q fever cardiac, neurological and biliary tract complication. We described cases of interstitial lung diseases and report cases of acute Q fever endocarditis. We showed an association between persistent C. burnetii infection, lymph node involvement and lymphoma. The in silico, in vitro and in vivo comparison of 3 strains of C. burnetii have shown that the Guiana strain, which is endemic in French Guiana, was the most virulent strain.
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Immunological correlates of illness severity and course in acute Q feverEverett, Beth Jennifer, Medical Sciences, Faculty of Medicine, UNSW January 2010 (has links)
Acute Q fever is the disease manifestation of Coxiella burnetii infection. This obligate intracellular bacterium is phagocytosed by innate immune cells, where it replicates within the usually bactericidal environment of the phagolysosome. As the immune response is activated, the resultant pro-inflammatory cytokines aid in pathogen clearance but also trigger an acute sickness response in the host. This thesis describes the natural history of acute Q fever in a prospective cohort ??? the Dubbo Infection Outcomes Study (DIOS). In these subjects, the acute febrile illness was characterised by severe headache, drenching sweats and fatigue. In approximately 10% of subjects, symptomatic illness marked by fatigue remained present for months, or occasionally years, after the acute illness. Subjects with more severe acute illness were more likely to develop this post Q fever fatigue syndrome (QFS). The aim of this thesis was to determine whether ongoing infection or aberrant immune activation drive the prolonged symptoms of QFS. Sensitive real time PCR detection of Coxiella DNA revealed a significant minority of subjects had very low copy numbers in circulating monocytes, with an increased prevalence in those with QFS. However, the detection was not consistently found within individual subjects and the copy number was at the threshold of reliable detection. C. burnetii was shown here to stimulate cytokine production in monocytic cells via interaction with Toll-like receptor (TLR)-2 and not TLR-4. Functional polymorphisms in these TLRs were identified in subjects with Q fever, but were not associated with Q fever susceptibility, severity or duration. Phase I-specific responses are believed to be critical in the generation of protective immunity to C. burnetii, yet the phase II-specific responses of innate and adaptive immune components were consistently of higher magnitude. Whole C. burnetii organisms induced antigen-non-specific T cell activation, presumably via the indirect activation of monocytes by C. burnetii LPS. No significant differences were found in the magnitude or kinetics of the host response to infection, or in the carriage of genetic polymorphisms, when comparing subjects who developed QFS with subjects who had promptly resolving illness. It remains unclear what factors mediate the progression of acute Q fever to QFS.
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Development of tools for surveillance of Coxiella burnetii in domestic ruminants and Australian marsupials and their waste /Banazis, Michael. January 2009 (has links)
Thesis (Ph.D.)--Murdoch University, 2009. / Thesis submitted to the Faculty of Health Sciences. Includes bibliographical references (p. 246-272)
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Development of tools for surveillance of Coxiella burnetii in domestic ruminants and Australian marsupials and their wasteM.Banazis@murdoch.edu.au, Michael Banazis January 2009 (has links)
The aim of this study was to develop improved methods to detect viable Coxiella burnetii in wastes from livestock production. The impetus for this work arose because there is a significant risk of infection for humans attributed to contact with waste products from the livestock production industry. This situation is further compounded by the lack of suitable tools to detect viable C. burnetii in these wastes. In addition, effective disinfection strategies for livestock wastes are also required to reduce the risk of infection with C. burnetii for individuals that come into contact with these waste products.
A quantitative real-time PCR system (qPCR) with high sensitivity and specificity was developed to detect the C. burnetii in environmental samples associated with domestic ruminants and native Australian marsupials. Different detection chemistries and procedures were evaluated based on their sensitivity, specificity and reproducibility. Overall it was found that the TaqMan PCR targeting the IS1111a locus provided the most sensitive and reproducible test. The Geneworks PowerSoil(tm) DNA isolation kit provided the best compromise between reproducibility and recovery of DNA from livestock wastes. When combined, the IS1111a TaqMan qPCR and Geneworks PowerSoil DNA Extraction Kit provided a test which was capable of detecting as few as two C. burnetii genome equivalents in 0.2g of soil or faeces.
Coxiella burnetii has been shown to display extreme resistance to environmental exposure. Therefore, assessment of the viability of the organism in environmental matrices is more useful for risk assessment programs than detection of DNA alone. A quantitative reverse transcriptase PCR was developed that was able to detect viable C. burnetii cells in soil. The sensitivity of the assay was enhanced by heat-treating the soil samples prior to extraction of RNA.
The factor most often associated with transfer of C. burnetii to humans is exposure to livestock or their waste. Therefore, decontamination of waste from livestock production industries is a key factor in preventing outbreaks of Q fever. A system was developed to determine the efficacy of various disinfectant treatments against the environmental pathogen C. burnetii. Treatments evaluated included sodium hypochlorite, ozone, ultraviolet light, peracetic acid (PAA), and Virkon S®. Sodium hypochlorite at a concentration of 0.1 mM reduced the infectivity of C. burnetii by over 92% while treatment with the same sodium hypochlorite concentration in wastewater showed significantly reduced efficacy. Despite this reduced potency, sodium hypochlorite is still useful for control of C. burnetii in the liquid waste of animal production.
Commercially available ELISA and CFT assays exist for ruminants but there are no immunological tests available for detecting C. burnetii in marsupials even though Australian marsupials are known to be susceptible to C. burnetii. An indirect ELISA for detecting anti-Coxiella antibodies in kangaroos was developed. Paired serum and faecal samples were taken from 379 ruminants from Western Australia and the serum was tested with a commercially available ELISA and the complement fixation test while the faeces was tested using the qPCR developed during this study. Paired serum and faecal samples were taken from 343 kangaroos from WA and were tested with the antibody-ELISA developed during this study and by qPCR. A very low prevalence of anti-Coxiella antibodies was observed in the ruminants sampled and results from immunological tests correlated poorly with qPCR data. The development of an ELISA for use with kangaroo serum was problematic because of the lack of reference sera from animals known to be infected with C. burnetii. Despite this results from the ELISA developed suggested that the apparent seroprevalence in the WA animals surveyed was approximately 34%. Results from testing kangaroo faeces with the qPCR correlated poorly with the results from the antibody-ELISA. These data suggest that kangaroos may be a significant reservoir of C. burnetii in Western Australia and due to cohabitation of kangaroos and domestic ruminants, may provide a link between the wildlife and domestic cycles of C. burnetii.
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An inhalation model of acute Q fever in guinea pigsRussell-Lodrigue, Kasi Elizabeth 15 May 2009 (has links)
Coxiella burnetii is an intracellular pathogen that can cause both acute and
chronic disease (Q fever) in humans and infects many animals with varying clinical
illness and persistence. A guinea pig aerosol-challenge model of acute Q fever was
developed using infection with C. burnetii across a 5-log range of challenge doses.
Clinical signs included fever, weight loss, respiratory difficulty, and death, with degree
and duration of response corresponding to dose of organism delivered. Histopathologic
evaluation revealed coalescing panleukocytic bronchointerstitial pneumonia 7 days after
a high-dose challenge, resolving to multifocal lymphohistiocytic interstitial pneumonia
by 28 days. Clinical and pathologic changes noted in these guinea pigs were comparable
to those seen in human acute Q fever, making this an accurate and valuable animal
model. This model was used to compare the relative virulence of eight isolates from four
different genotypic groups: I (RSA493, RSA334, and RSA270), IV (Q177 and Q173), V
(Q212 and Q217), and VI (5J108-111). Guinea pigs infected with group I acute-diseaseassociated
isolates had severe respiratory disease, while no to moderate clinical illness
was observed in animals given group IV or V chronic-disease-associated isolates. 5J108-
111 appeared avirulent. These data suggest that C. burnetii isolates have a range of
disease potentials and support a distinction in strain virulence between established genotypic groups, though isolates within the same genomic group cause similar
pathologic responses. Heterologous protection was confirmed by cross vaccination and
challenge with RSA493 and Q217. A marked non-specific suppression of
lymphoproliferation was noted at 14 and 28 days post infection with RSA493; similar
suppression was seen after infection with Q173 and Q212 but not 5J108-111. Proinflammatory
cytokines IFN-γ and TNF-α were produced during early C. burnetii
infection, at which time anti-inflammatory cytokines TGF-β and IL-10 were repressed.
A vaccine made from phase I C. burnetii was found to be completely protective against
lethal infection in the guinea pig model, while vaccination with killed phase II organisms
conferred only partial protection, preventing death and reducing but not precluding fever
and respiratory illness. Protective vaccination significantly stimulated cell-mediated
immunity and elicited increases in IFN-γ, TNF-α, and IL-12p40 mRNA levels.
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A study of cell-mediated immunity in subjects vaccinated against Q fever and after Q fever infection / Angelo Antonio IzzoIzzo, Angelo Antonio January 1991 (has links)
Copies of author's previously published articles inserted / Includes bibliographical references / [ix], 261, [101] leaves, [4] leaves of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Microbiology and Immunology, 1992
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