School of Biosecurity, Biotechnolgy and Laboratory Sciences (SBLS)

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Browsing School of Biosecurity, Biotechnolgy and Laboratory Sciences (SBLS) by Subject "Anthrax"
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    Ecological risk determinants potentiating wildlife anthrax occurrence, and bio-surveillance tools for control and prevention: A case study of Queen Elizabeth Conservation Area in Uganda
    (Makerere University, 2023) Driciru, Margaret
    Anthrax has long standing history at Uganda’s Queen Elizabeth National Park, where outbreaks have occurred consistently and periodically with significant wildlife mortalities. Bacillus anthracis, the causative agent, is a highly pathogenic, endospore forming, encapsulated, soil borne bacterium with diverse geographical global distribution. Herbivores are primary hosts. Humans are exposed through infected animal products. This study aimed to understand patterns of historical outbreaks, epidemiology, environmental risks, opportunities to improve control and prevention. Cases were enumerated through active carcass surveillance, and historical animal health record reviews from government archives. Historical outbreak patterns were assessed using descriptive statistics; epidemiological patterns, using two specific Hippopotamus amphibious models. Spatio-temporal clustering of cases, using permutation models of the spatial scan statistics; directionality in epidemic movements, using directional tests; patterns of epidemic propagation, using standard epidemic curves. B. anthracis Suitable Ecological Niche examined using Maxent Modeling. Gel electrophoresis PCR molecular methods and 57 formalin-fixed tissues and swabs, used for evaluating extend of the anthrax problem, efficacy of Bio-surveillance tools, sample preservatives and Protective Antigen Rapid Diagnostic Test against PCR as gold standard. Anthrax was confirmed from all outbreak years, spatial locations and species examined. Patterns showed unique spatial, species specific, seasonal variations, with human morbidity and mortality. Outbreaks were initiated during onset or end of first rains. Suitable niche favouring spore survival and distribution was a narrow-restricted corridor, defined by hot-dry climatic conditions with alkaline soils rich in potassium and calcium ions. Anthrax epidemiology in hippos was characterized by consistent highly significant spatio-temporal clustering of cases and directional epidemic movements, mixed point-source propagated epidemics. The RDT evaluated showed high specificity, moderate sensitivity. Sample preservation tools showed good efficacy. The study concludes that, at QEPA, anthrax is endemic, very prevalent, epidemics are driven by hippos with significant zoonotic potential but limited control exists. Pathogen strain/clonality, longitudinal predictive risk studies, targeted bio-surveillance are recommended
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    Spatio-temporal patterns of anthrax outbreaks in cattle in Kween and Arua Districts, Uganda
    (Makerere University, 2022-02) Onyuth, Howard
    A study was done to understand and compare the spatiotemporal patterns of cattle anthrax outbreaks with emphasis on progression, intensity, direction, and hotspot areas in Arua and Kween districts. Data were collected retrospectively from four organizations. Site visits were also carried out during an active outbreak to collect more data. Spatiotemporal patterns of two endemic areas located at different altitudes with 308 cases in Kween and 379 in Arua districts were analyzed using ArcGIS, saTscan, and ClusterSeer. The results showed seasonality was comparable between the sites with peaks in May in Arua and June in Kween districts. Cattle anthrax cases were distributed along water bodies with significant positive correlations between cases and at risk cattle populations in Kween (P = 0.01, r2= 0.3) and Arua (P = 0.0001, r2= 0.622) districts. Disease hotspots were observed in both districts with spatially overlapping dates. Significant spatiotemporal clustering occurred in both districts pointing towards a defined source. Significant directional epidemic progression was detected along a water flow gradient of 117.9 degrees in Kween district. In Arua district, whereas the outbreak was spreading with a water gradient of 59.1 degrees, it was more widespread suggesting alternative transmission mechanisms. These findings suggest the spatiotemporal patterns in two endemic regions were site-specific. It was recommended that communal grazing, vaccination coverage, forces of water flow, locations of disease hot spots, and the extents of climatic, environmental, agricultural, and demographic characteristics over space and time should be considered when planning strategies for the prevention and control of anthrax in these endemic settings.