Novel Nanoparticle Composites For Molecular Probes In Diagnostic Imaging
Funder
National Health and Medical Research Council
Funding Amount
$170,716.00
Summary
Isotope labelled protein probes, eg. antibodies, are a valuable imaging tool in investigating patient disease. Their biological specificity is their great strength, however, detection sensitivity often limits their use. A novel nanoparticle developed at ANU can increase this signal by a million-fold in comparison with conventional methods of labelling. This approach suits a range of probes and will accommodate many of the isotopes already used in patient diagnostics and therapy.
Microfluidic Device Fo The Quantitative Assessment Of Blood Platelet Aggregation Behaviour
Funder
National Health and Medical Research Council
Funding Amount
$270,114.00
Summary
This project will develop a low-cost microfluidic chip which utilises dynamic shear stress to assess the propensity of blood clotting. This tool will analyze a tiny sample of blood and will predict excessive or ineffective clotting. The project will develop the chip and a low-cost 'chip reader' such that the tool can be operated at the point of care with only basic training.
Development Of Platelet-Targeted Nanoparticles For Magnetic Resonance Imaging Towards The Detection Of Thrombi/Emboli And Vulnerable Atherosclerotic Plaques
Funder
National Health and Medical Research Council
Funding Amount
$606,524.00
Summary
Heart attack, stroke and pulmonary embolism typically strike without warning and either kill patients or cause devastating disabilities. Currently, we do not have diagnostic methods to identify patients and the blood vessels at risk. We have developed a new innovative MRI nanoparticle directed against activated platelets for the detection of _at risk� blood vessels. The current funding is requested to optimise the manufacture of this targeted MRI nanoparticle and to undertake the animal studies ....Heart attack, stroke and pulmonary embolism typically strike without warning and either kill patients or cause devastating disabilities. Currently, we do not have diagnostic methods to identify patients and the blood vessels at risk. We have developed a new innovative MRI nanoparticle directed against activated platelets for the detection of _at risk� blood vessels. The current funding is requested to optimise the manufacture of this targeted MRI nanoparticle and to undertake the animal studies required to enter early stage clinical trials.Read moreRead less
Development Of A Fibre-optic Flow Sensor To Monitor Blood Platelet Adhesive Function.
Funder
National Health and Medical Research Council
Funding Amount
$187,550.00
Summary
The ability to accurately diagnose platelet dysfunction is key to the clinical management of many cardiovascular diseases which represent a major cause of mortality in the industrialised world. At present there is no clinically robust instrument that can accurately assess abnormal platelet function under conditions that closely mimic the physiological environment. We aim to develop a sensitive prototype instrument for the clinical assessment of platelet function. We propose to develop this medic ....The ability to accurately diagnose platelet dysfunction is key to the clinical management of many cardiovascular diseases which represent a major cause of mortality in the industrialised world. At present there is no clinically robust instrument that can accurately assess abnormal platelet function under conditions that closely mimic the physiological environment. We aim to develop a sensitive prototype instrument for the clinical assessment of platelet function. We propose to develop this medical device as a relatively cheap and portable point of care instrument that can be marketed internationally.Read moreRead less
Pre-clinical Evaluation Of Nano-membrane Dressings To Promote Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$188,600.00
Summary
This project will investigate whether a novel type of wound dressing can promote faster wound healing and reduce scarring. Time taken to heal is one of the best predictors of whether a wound will heal with significant scarring. The faster wounds heal the better. We have identified a new dressing with specific nano-scale pores that may promote faster healing. This dressing will be tested in the best model of human wound healing with the potential to progress to clinical trials if successful.
Studies Of Metabolites Of Synthetic Flavonols For The Treatment Of Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$207,440.00
Summary
Cardiovascular disease, including heart attack and stroke, is the leading killer of Australians. A promising new drug, NP202, can reduce the amount of tissue damaged from a heart attack; however, its mechanism of action remains obscure. NP202 is metabolized to a range of compounds, one of which is partly responsible for its beneficial effects. In this project we will identify other metabolites of NP202 and characterize their biological activity to gain insight into its mechanism of action.
Proof Of Concept Studies On A Novel Class Of Antibiotics
Funder
National Health and Medical Research Council
Funding Amount
$199,700.00
Summary
The rise of drug-resistant superbugs is a major healthcare concern in hospitals across the world. New antibiotics are needed to combat infections caused by bacteria that are resistant to current drugs. One collaborative team of researchers is addressing the issue. They have discovered a new compound effective against Staphylococcus aureus, the cause of Golden Staph. Using a combination of scientific disciplines the team are now developing this compound into a new antibiotic.