A Device For Simultaneous Continuous Acquisition Of EEG And MRI
Funder
National Health and Medical Research Council
Funding Amount
$179,401.00
Summary
We aim to further develop a world-leading method we invented that facilitates the simultaneous, continuous acquisition of the electroencephalogram (EEG - electrical brain waves measured at the scalp) and functional Magnetic Resonance Imaging (fMRI - images the location of brain activity throughout the brain). Combining the two permits non-invasive imaging of human brain function with the exquisite temporal resolution of EEG and the high spatial resolution and brain coverage afforded by fMRI.
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.
Improved electrophysiological mapping techniques have enhanced understanding of arrhythmia mechanisms and the development of curative ablation strategies. Advanced mapping systems utilize online visualization of catheters, 3D geometry, and annotation of ablation sites. To date, all commercially available systems rely on proprietary equipment to locate catheter positions and reconstruct chamber shape from multiple site recordings. Thus, cost is prohibitive, limiting widespread availability. An al ....Improved electrophysiological mapping techniques have enhanced understanding of arrhythmia mechanisms and the development of curative ablation strategies. Advanced mapping systems utilize online visualization of catheters, 3D geometry, and annotation of ablation sites. To date, all commercially available systems rely on proprietary equipment to locate catheter positions and reconstruct chamber shape from multiple site recordings. Thus, cost is prohibitive, limiting widespread availability. An alternative approach has emerged with the use of CT-MRI imaging and analysis. Novel techniques extract images of the endocardial surface from CT-MRI for use in electrophysiological mapping. This surface can be used as the chamber geometry instead of reconstruction based on expensive technology measuring spatial coordinates of the catheter tip inside heart. The proposed Anatomical Template Mapping System (ATMS) will generate maps of electrophysiological parameters derived from catheter recordings without the need for proprietary equipment. The physician will direct the virtual catheter position onto the 3D model of the chamber, obviating the need for equipment to map the spatial distribution of the catheters. The major advantage is that, without the need for specialized equipment, this method of mapping is substantially cheaper and can be used with any conventional electrophysiological mapping systems. Furthermore, it will provide the most important feature of the advanced mapping systems - an understanding of the arrhythmia mechanism.Read moreRead less
A Novel Method For The Early Detection Of Cardiovascular Disease Through The Direct Measurement Of Tissue Wall Elasticit
Funder
National Health and Medical Research Council
Funding Amount
$196,000.00
Summary
Changes in the structure and function of blood vessels are an early stage in the development of arterial disease. A simple means of assessing this damage will allow for early detection of arterial disease and will provide a tool for monitoring outcomes of treatment and preventive medicine. We have developed a novel method for measuring vessel wall displacement throughout the cardiac cycle. This study aims to provide proof of principle data through the validation of these measurements against the ....Changes in the structure and function of blood vessels are an early stage in the development of arterial disease. A simple means of assessing this damage will allow for early detection of arterial disease and will provide a tool for monitoring outcomes of treatment and preventive medicine. We have developed a novel method for measuring vessel wall displacement throughout the cardiac cycle. This study aims to provide proof of principle data through the validation of these measurements against the physical properties of the vessel and application of the technique to a clinical setting.Read moreRead less
A Single Digital Handheld Imaging Device For Use In Both Ophthalmology And Dentistry
Funder
National Health and Medical Research Council
Funding Amount
$431,221.00
Summary
Our aim is to produce and validate a single digital imaging device which can be used in ophthalmology (both for retinal and anterior segment imaging) and dentistry. This device will be low-cost, easy-to-operate and portable. Our planned development of the novel screening tool should help in bringing high quality, lower cost health care to those without easy access to it, firstly to residents of rural areas in Australia and then in developing countries in our region. This can be achieved by more ....Our aim is to produce and validate a single digital imaging device which can be used in ophthalmology (both for retinal and anterior segment imaging) and dentistry. This device will be low-cost, easy-to-operate and portable. Our planned development of the novel screening tool should help in bringing high quality, lower cost health care to those without easy access to it, firstly to residents of rural areas in Australia and then in developing countries in our region. This can be achieved by more efficient screening methods and redirecting resources to target those with treatable eye disease only. The detection process can be progressively transferred to less expensive health workers while ophthalmologist input can be redirected to monitoring the screening results and performing surgery. The dentists travel infrequently to rural and remote WA. If the dentist can pre plan their treatment then it will be more efficient and possible to treat more people at each visit to remote and rural WA. With the help of the proposed imaging device for dentistry, the nurses and other allied personnel should be able to send the digital images in advance to dentist over Internet and therefore help dentist pre-plan their treatment. As a result, improved dental care for rural, remote and underserved communities will occur.Read moreRead less
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.
Non-invasive Measurement And Imaging Of Hepatic Iron Concentrations Using Nuclear Magnetic Resonance
Funder
National Health and Medical Research Council
Funding Amount
$341,210.00
Summary
Iron overload diseases such as genetic haemochromatosis and thalassaemia affect up to 0.5% of the world's population. These diseases result in deposition of dangerously high concentrations of iron in tissues of the body. Organs such as the liver and heart are at particular risk of being damaged. In order to manage a patient's condition optimally, a knowledge of their tissue iron concentrations is required. Currently the most direct and reliable way of achieving this is to remove a small sample o ....Iron overload diseases such as genetic haemochromatosis and thalassaemia affect up to 0.5% of the world's population. These diseases result in deposition of dangerously high concentrations of iron in tissues of the body. Organs such as the liver and heart are at particular risk of being damaged. In order to manage a patient's condition optimally, a knowledge of their tissue iron concentrations is required. Currently the most direct and reliable way of achieving this is to remove a small sample of the patient's liver for chemical analysis. Apart from the fact that the procedure is unpleasant and carries some risk, the measurement made by this method has some uncertainty because the liver iron concentration can vary significantly from place to place within the liver. The aim of this project is to test the validity of a new non-invasive method of measuring and imaging the liver iron concentrations of a patient. In addition, the potential to use the new technology for detecting and imaging liver cirrhosis in iron overloaded patients will be evaluated. If successful, the project may lead to a more accurate method of measuring tissue iron concentrations and eliminate the need for invasive procedures.Read moreRead less
A Motion Correction Technique For Accurate PET/CT Brain Imaging In Paediatric And Dementia Patients
Funder
National Health and Medical Research Council
Funding Amount
$190,450.00
Summary
PET-CT imaging is a vital tool in the diagnosis and management of patients with brain disorders including dementia, epilepsy and cancer. However images are often distorted by patient motion, particularly in demented and paediatric patients. The CI has recently developed a motion tracking and correction method to derive images nearly free of motion effects. This aim of this project is to evaluate its impact on image quality in a variety of patients referred for PET- CT brain investigations.
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.