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Ecological models of microparasitic diseases shared by vertebrate hostsNorman, Rachel Ann January 1995 (has links)
No description available.
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Molecular studies of louping ill virusShiu, Stephen Yuen Wing January 1991 (has links)
The genomic RNA encoding the structural proteins of louping ill, a tickborne flavivirus, was cloned and sequenced. Sequence comparisons of louping ill envelope protein showed greater homology with tick-borne than mosquito-borne flaviviruses and greater homology with the western than the far eastern subtype of tick-borne encephalitis virus. Louping ill and tick-borne encephalitis viruses are probably varieties of a common tick-borne ancestral virus. The average amino acid sequence diversity between members of the tick-borne serogroup was significantly lower than that of mosquito-borne serogroups, suggesting that tick-borne flaviviruses have been subjected to different evolutionary immune selection pressure from the mosquito-borne viruses. Using the published model of tick-borne encephalitis envelope protein and the derived sequence data on louping ill virus, three discontinuous peptides (amino acids 81-88, 207-212 and 230-234) which may represent critical molecular determinants within the receptor binding site of tick-borne flaviviruses, were identified. These peptides may provide a specific genetic marker for these viruses. Recombinant baculoviruses and vaccinia viruses containing cloned DNA, encoding either the envelope protein or the structural proteins of louping ill virus, were constructed. Glycosylated envelope protein, presented both inside and on the surface of insect and mammalian cells, was expressed by all four recombinant viruses. Differences in antigenic presentation of envelope protein were observed between envelope protein and structural protein constructs as well as between insect cell and mammalian cell expression systems. Despite the expression of epitopes known to elicit neutralizing and protective antibodies when present in authentic antigen, the recombinant envelope protein expressed by either baculovirus or vaccinia virus failed to induce, under the experimental conditions employed, either neutralizing or protective antibodies in both mice and rabbits against louping ill virus. Hence, louping ill envelope protein expressed by baculoviruses and vaccinia viruses was antigenically reactive but immunogenically inert.
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Kuru in contextsWilson, Christine, University of Western Sydney, College of Arts, Education and Social Sciences, School of Humanities January 2001 (has links)
It has been a widely accepted belief in scientific and public discourse at the end of the twentieth century that cannibalism was the principal means of transmission of the disease call 'Kuru'.The study argues that other explanations might have been excluded from consideration, in particular, iatrogenic transmission.Circumstantial evidence in support of this proposition is examined.The work begins with an examination of the relationship between a number of diseases including, X disease, poliomyelitis, louping ill, scrapie and kuru through the first half of the twentieth century. Major themes of the work revolve around the boundary between research on animal and human disease, the complexities of research in this area, and the different messages that exist simultaneously in three domains: scientific research and publications, government and institutional archives, and the public domain. The thesis argues that the circumstantial evidence presented needs to be considered seriously and that further research in the area is required before we can come to a reliable understanding of the factors involved in the transmission of kuru / Doctor of Philosophy (PhD)
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Kuru in contexts /Wilson, Christine. January 2001 (has links)
Thesis (Ph.D.) -- University of Western Sydney, 2001. / "A thesis submitted to the University of Western Sydney in fulfilment of the requirements for the degree of Doctor of Philosophy" Bibliography : leaves 235-249.
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Mathematical models of a tick borne disease in a British game bird with potential management strategiesPorter, Rosalyn January 2011 (has links)
Louping ill virus (LIV) is a tick borne disease that causes mortality in red grouse, an economically important game bird of British uplands. The aim of this thesis is to extend previously published models of LIV , to consider the potential impact of different management strategies. In addition a new route of infection and the seasonal biology of both grouse and ticks will be explored. Grouse chicks are known to eat ticks as part of their diet in the first three weeks of life which may contribute to virus persistence if chicks consume infected ticks. This novel route of infection is incorporated in to the model which predicts that ingestion increases the range of host densities for which the virus is able to persist. The ingestion of ticks by grouse also reduces the tick population so that for low host densities the ingestion of ticks by grouse reduces the tick population so virus cannot persist. The model is adapted to take account of the seasonal biology of grouse and ticks. Although the temporal predictions of the seasonal models show some differences the addition of seasonality does not alter the model predictions of when LIV is likely to persist at different grouse and deer densities. Consequently seasonality is felt to be unimportant when considering management strategies. The treatment of sheep with acaricide in an attempt to reduce the tick population on a grouse moor is currently being trialled in Scotland. We use a model to predict the likely effect of this strategy at different deer densities. The number of ticks found attached to sheep varies so we consider the effect of tick attachment rates as well as acaricide efficacy. Although we predict that acaricide treated sheep can reduce the tick population and therefore LIV in grouse in some circumstances the treatment is less effective in the presence of deer. Consequently we use a model to make theoretical predictions of the effectiveness of acaricide treated deer as a control strategy for reducing LIV in red grouse. The effect of culling deer on LIV in grouse is also modelled and contrasted with the effect of acaricide use. It is predicted that acaricide treatment of deer could be highly effective, particularly if the deer density is first reduced by culling. Finally we considered the direct treatment of red grouse with acaricide. Female grouse can be given an acaricidal leg band which protects her directly and indirectly protects her chicks as they acquire some acaricide whilst brooding. Trials have suggested this can reduce tick burdens for individuals. We use the model to determine the potential effect that treating individual broods may have on the whole grouse population. The model predictions suggest that unless acaricide efficacy on chicks is high and long lasting treating individual broods is unlikely to reduce LIV in the whole population but will still provide some benefit for the individuals. The effectiveness of treatment is reduced by higher deer densities. The success of the management strategies considered in this thesis appear to be restricted by the presence of deer. It may therefore be that a combination of treatments including the treatment of deer may be of the greatest benefit to the grouse population.
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Using mathematical models to understand the impact of climate change on tick-borne infections across ScotlandWorton, Adrian J. January 2016 (has links)
Ticks are of global interest as the pathogens they spread can cause diseases that are of importance to both human health and economies. In Scotland, the most populous tick species is the sheep tick Ixodes ricinus, which is the vector of pathogens causing diseases such as Lyme borreliosis and Louping-ill. Recently, both the density and spread of I. ricinus ticks have grown across much of Europe, including Scotland, increasing disease risk. Due to the nature of the tick lifecycle they are particularly dependent on environmental factors, including temperature and habitat type. Because of this, the recent increase in tick-borne disease risk is believed to be linked to climate change. Many mathematical models have been used to explore the interactions between ticks and factors within their environments; this thesis begins by presenting a thorough review of previous modelling of tick and tick-borne pathogen dynamics, identifying current knowledge gaps. The main body of this thesis introduces an original mathematical modelling framework with the aim to further our understanding of the impact of climate change on tick-borne disease risk. This modelling framework takes into account how key environmental factors influence the I. ricinus lifecycle, and is used to create predictions of how I. ricinus density and disease risk will change across Scotland under future climate warming scenarios. These predictions are mapped using Geographical Information System software to give a clear spatial representation of the model predictions. It was found that as temperatures increase, so to do I. ricinus densities, as well as Louping-ill and Lyme borreliosis risk. These results give a strong indication of the disease risk implications of any changes to the Scottish environment, and so have the potential to inform policy-making. Additionally, the models identify areas of possible future research.
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