Development of computer-based decision support tools using population pharmacokinetic/pharmacodynamic models. Diabetes is an epidemic that presents an enormous burden to health systems of both developed and developing nations. Australia spends an estimated $35 billion on the condition annually, with costs set to rise with increasing diagnosis rates. Additionally, the burden of diabetes is more prominent in indigenous Australians. We intend to improve management of this disease in non-indigenous ....Development of computer-based decision support tools using population pharmacokinetic/pharmacodynamic models. Diabetes is an epidemic that presents an enormous burden to health systems of both developed and developing nations. Australia spends an estimated $35 billion on the condition annually, with costs set to rise with increasing diagnosis rates. Additionally, the burden of diabetes is more prominent in indigenous Australians. We intend to improve management of this disease in non-indigenous and indigenous Australians by development of a user-friendly computer-based decision support tool for doctors. Once established, this tool will have applications in other fields of health care where support is needed to make informed dosing decisions for critical medications and have the potential to reduce financial and social impacts of chronic disease.Read moreRead less
Developing a Hemodynamic Model for Improving Clinical Treatment of Vascular Diseases. Stroke caused by vascular diseases is the second greatest single killer, which is taking away thousands of lives and costing billions every year in Australia. Improving the existing clinical treatments of these diseases is thus of utmost urgency. This project is targeted to developing a reliable Hemodynamic model through comprehensive experimental validation approach. It will not only foster a more in-depth res ....Developing a Hemodynamic Model for Improving Clinical Treatment of Vascular Diseases. Stroke caused by vascular diseases is the second greatest single killer, which is taking away thousands of lives and costing billions every year in Australia. Improving the existing clinical treatments of these diseases is thus of utmost urgency. This project is targeted to developing a reliable Hemodynamic model through comprehensive experimental validation approach. It will not only foster a more in-depth research of vascular diseases but also provide a virtual forecasting tool for physicians or surgeons to develop guidance on diagnosis and therapeutic planning of clinical treatment, which brings great socio-economic benefit to the health of the Australian community.Read moreRead less