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Investigating the functional interaction between vasopressin and angiotensin receptors. Kidney disease resulting from diabetes is a major health issue for Australians, and indigenous Australians in particular. This project aims to enable improved therapies to be developed, as well as better inform doctors regarding the use of potential combinations of existing pharmaceuticals to treat this condition.
Exploitation of a Novel Drug Target for Controlling Animal Trypanosomiasis. Trypanosomiasis greatly reduces livestock productivity in countries where it is endemic and is a threat to livestock and native wildlife in countries such as Australia where it is exotic but there is a risk of entry. New trypanocidal drugs with different modes of action are urgently needed to overcome growing resistance. This project aims to characterise trypanosome tubulin and, with this information, produce new tubulin ....Exploitation of a Novel Drug Target for Controlling Animal Trypanosomiasis. Trypanosomiasis greatly reduces livestock productivity in countries where it is endemic and is a threat to livestock and native wildlife in countries such as Australia where it is exotic but there is a risk of entry. New trypanocidal drugs with different modes of action are urgently needed to overcome growing resistance. This project aims to characterise trypanosome tubulin and, with this information, produce new tubulin-binding compounds for assessment in vitro and in vivo. Upon completion of the project it is expected that drug binding sites on trypanosome tubulin will be characterised and at least one candidate for clinical trials identified.Read moreRead less
DYRK1A As A Novel Target For Glioblastoma Therapies
Funder
National Health and Medical Research Council
Funding Amount
$620,294.00
Summary
Glioblastoma is a form of brain cancer that is currently incurable. We have discovered that switching-off an enzyme called DYRK1A (using ‘DYRK1A inhibitors’) kills glioblastoma cells. This therapeutic advantage is even greater when combined with drugs approved for other cancers. This project will develop new DYRK1A inhibitors and examine a novel combination treatment for glioblastoma patients. This could initiate a novel therapy that could significantly extend patients’ lives.
Novel Approaches To The Prevention And Treatment Of Chronic Heart Disease And Its Co-morbid Complications
Funder
National Health and Medical Research Council
Funding Amount
$5,793,580.00
Summary
Cardiovascular disease (CVD) and its associated additional disorders constitute major public health problems, especially given the rapidly ageing population which is increasingly affected by obesity and diabetes. This Program will explore novel therapies for the treatment of CVD and associated diseases, particularly focussing on chronic kidney disease, translating preliminary laboratory-based findings into clinical trials and then clinical and epidemiological findings into practice and policy.
Light-responsive nanomaterials as nanomedicines: new approaches to treating macular degeneration, cancer and other critical unmet therapeutic needs. Nanotechnology is enabling new medicines for the treatment of important diseases such as cancer and macular degeneration. This project will investigate novel nanomaterials for the development of new highly effective medicines that can be controlled after administration, leading to reduced side effects and increased convenience for patients.
Improving Stroke Outcomes: Attenuating Progression And Recurrence
Funder
National Health and Medical Research Council
Funding Amount
$9,331,996.00
Summary
Stroke is the second most common cause of death and major cause disability. There are few proven interventions, so we need to introduce new ones. We developed a bench to bedside program to introduce new stroke therapies and its early secondary prevention. Our general goal is to provide evidence for their effectiveness and safety. We will use animal stroke models, markers in the blood to help diagnose and predict stroke outcome and imaging to help select patients for several clinical trials.
Novel energy-efficient electrowinning anodes. Developed nations rely extensively on metallic materials to sustain modern society. This places a significant importance on delivery of base metals, and that delivery must be as efficient and clean as possible. The first step in the delivery chain is extraction from the ore, and much of this technology is based on electrowinning (EW), where the behaviour of the anode is critical to overall process efficiency. This project will deliver advances in EW ....Novel energy-efficient electrowinning anodes. Developed nations rely extensively on metallic materials to sustain modern society. This places a significant importance on delivery of base metals, and that delivery must be as efficient and clean as possible. The first step in the delivery chain is extraction from the ore, and much of this technology is based on electrowinning (EW), where the behaviour of the anode is critical to overall process efficiency. This project will deliver advances in EW anodes which will lead to energy savings, which in turn, will result in a cleaner overall production cycle, major emission reductions and cost savings. The expected outcomes of this project are targeted at the development of new and advanced anode materials.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH140100035
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Research Hub for Computational Particle Technology. ARC Research Hub for Computational Particle Technology. This research hub aims to develop and apply advanced theories and mathematical models to design and optimise particulate and multiphase processes that are widely used in the minerals and metallurgical industries. This should be achieved through detailed analysis of the fundamentals governing fluid flow, heat and mass transfer at different time and length scales, facilitated by various ....ARC Research Hub for Computational Particle Technology. ARC Research Hub for Computational Particle Technology. This research hub aims to develop and apply advanced theories and mathematical models to design and optimise particulate and multiphase processes that are widely used in the minerals and metallurgical industries. This should be achieved through detailed analysis of the fundamentals governing fluid flow, heat and mass transfer at different time and length scales, facilitated by various novel research techniques. Research outcomes including theories, computer models and simulation techniques, as well as well-trained young researchers, should have a significant impact across a range of industries of vital importance to Australia’s economic and technological future, including the minerals, metallurgical, materials, chemical, energy, pharmaceutical and environment sectors.Read moreRead less