Biocompatible Gadolinium-free Contrast Agents For Molecular Targeted MR Imaging
Funder
National Health and Medical Research Council
Funding Amount
$645,205.00
Summary
Building on the biomedical engineering of USPIOs, this project expects to generate new probing tools for non-invasive molecular imaging and affect subsequent clinical imaging through earlier and more accurate diagnosis of diseases. The project will allow the delivery of new knowledge in the emerging field of nanomedicine with high clinical translation potentials.
Single Shot X-ray Tomography For Real-Time Functional X-ray Imaging
Funder
National Health and Medical Research Council
Funding Amount
$322,641.00
Summary
Computed Tomography (CT) scanners produce three-dimensional images of vital organs that cannot be obtained by conventional two-dimensional (single projection) x-ray radiographs. However, the radiation exposure is hundreds of times higher than conventional radiography. We will develop the world’s first CT scanner that uses no more radiation than a single conventional x-ray image that will provide four-dimensional reconstructions of a patient’s moving internal organs.
Predicting Obstructive Sleep Apnoea Using 3D Craniofacial Photography
Funder
National Health and Medical Research Council
Funding Amount
$424,715.00
Summary
Sleep Apnoea is a common medical condition associated with snoring and collapse of the throat during sleep. Diagnosis of sleep apnoea involves an overnight sleep study in a specialised laboratory, which is expensive and time consuming. It is possible that sleep apnea could be diagnosed from a 3-dimensional photograph of the face. This study will define the relationships between sleep apnea and 3D face photographs in 956 young adults and 1,200 of their parents, and 3,000 sleep clinic patients.
Next-generation Smart Wound Dressings For Real-time, Non-invasive Monitoring Of Infection And Neovascularisation In Burns
Funder
National Health and Medical Research Council
Funding Amount
$899,877.00
Summary
Real-time assessment of infection and wound progression in burns is critical to reduce complications and improve long-term recovery. We propose a smart dressing that can assess a wound without needing to remove the dressing. It consists of a biocompatible silk membrane enriched with nanodiamonds and pH-sensitive fluorophores to detect infection, and allow optical assessment of blood vessel regrowth. This project will prototype and validate the smart dressing in preparation for human trials.
Optimising Radiation Therapy Delivery For Cancer Patients Using Daily Image Guidance To Maximize Cure And Reduce Normal Tissue Side Effects
Funder
National Health and Medical Research Council
Funding Amount
$510,968.00
Summary
When using radiotherapy to kill tumours, the radiation beams need to be targeted at the tumour, plus a margin of error around it to ensure that it receives sufficient dose despite uncertainties in its exact location relative to reference points used for beam alignment. Advanced statistical modelling techniques applied to data collected from patients will be used to determine the optimal margin width for individual patients to maximise cancer cure while minimising normal tissue side effects.
Advances in positron emission tomography now allow specific pathological features of many brain diseases such as Alzheimer's disease to be measured with a brain scan during life. This Fellowship will assist Professor Rowe and his team in their world leading work on new PET scanning techniques to improve diagnosis and assist the development of treatment for Alzheimer's and other degenerative diseases of the brain.
Improving Methodolgies For The Early Detection Of Disease
Funder
National Health and Medical Research Council
Funding Amount
$317,860.00
Summary
Early detection of tumours and diseases is vital for an effective and successful treatment. Current early detection methods are invasive and use toxic or radioactive chemicals. This project focuses on understanding how non-toxic, non-invasive ‘smart’ polymeric devices would work for early disease detection. It will provide next generation early detection devices which will reduce the cost of treatment, and increase the effectiveness of therapy.
Serial Imaging Of Molecular And Microstructural Changes In Atherosclerosis: Tracking Plaques Towards Destabilisation
Funder
National Health and Medical Research Council
Funding Amount
$992,112.00
Summary
Most heart attacks are caused by high-risk plaques in coronary arteries. A significant unmet need in cardiology is to reliably detect high-risk plaques before they are life-threatening. This project will generate unique insights into plaque pathogenesis over time to see how plaques become high-risk and cause heart attacks. This project will also develop a clinically applicable tool to detect high-risk plaques, leading to significantly reduced complications and cost in heart disease.
A Novel Non-invasive Diagnostic Imaging Technique Of Metastatic Cancer Using Plasminogen Activator Inhibitor Type 2.
Funder
National Health and Medical Research Council
Funding Amount
$187,750.00
Summary
This project aims to develop a non-invasive tumour diagnostic imaging agent based on a non-toxic protein (PAI2) that we know specifically identifies a critical marker of malignancy. PAI2 will be labelled with commonly used imaging radioisotopes. This novel imaging technique has important potential clinical uses including, determination of the most appropriate treatment for individual patients, assessing the success of such treatments, and a novel non-invasive prognostic indicator of malignancy.
Cardio-oncology is dedicated to preventing and treating cardiovascular issues in cancer patients. We aim to establish the first Australian perspective on this emerging field. We will assess the role of biomarkers in detecting cardiotoxicity from cancer therapy so patients can be safely guided through their cancer treatment. Finally, we will investigate if advanced cardiac imaging can detect cardiotoxicity earlier so patients can have optimal cancer therapy whilst preserving cardiac function.