Molecular Ecology of Cryptosporidium in Rural and Urban NSW. Cryptosporidiosis is of particular concern in rural NSW. Significant increases in the incidence of cryptosporidiosis coupled with repeated outbreaks in regional areas demonstrate a need for improved management strategies. This project will identify transmission patterns of this disease relevant to the Australian environment, which is essential for future control. The reduction of economic costs for medical treatment of cryptosporidiosi ....Molecular Ecology of Cryptosporidium in Rural and Urban NSW. Cryptosporidiosis is of particular concern in rural NSW. Significant increases in the incidence of cryptosporidiosis coupled with repeated outbreaks in regional areas demonstrate a need for improved management strategies. This project will identify transmission patterns of this disease relevant to the Australian environment, which is essential for future control. The reduction of economic costs for medical treatment of cryptosporidiosis and improved on-farm management through control of Cryptosporidium transmission from farm animals are significant to public health and of national and community benefit. The primary national benefit will be improved rural community health through prevention of cryptosporidiosis outbreaks.Read moreRead less
Optimisation of cell culture and molecular typing for the characterisation of Cryptosporidium in water. Cryptosporidium is an important waterborne agent of diarrhoeal disease in people and animals. Improved methods for accurately detecting viable parasite stages recovered from water are a priority research need for the water industry. They are dependent upon improved in vitro cultivation procedures that can be combined with DNA-based assays for identifying species and strains of Cryptosporidi ....Optimisation of cell culture and molecular typing for the characterisation of Cryptosporidium in water. Cryptosporidium is an important waterborne agent of diarrhoeal disease in people and animals. Improved methods for accurately detecting viable parasite stages recovered from water are a priority research need for the water industry. They are dependent upon improved in vitro cultivation procedures that can be combined with DNA-based assays for identifying species and strains of Cryptosporidium and closely related protozoa recovered from freshwater. This project addresses these needs in a collaborative study between scientists at Murdoch University with expertise in both in vitro cultivation and genetic characterisation of Cryptosporidium, and scientists from two of the major water utilities in Australia.Read moreRead less