New techniques for modelling, diagnosis and counter measures for cardiac related sleep disordered breathing. Around 50% of congestive heart failure sufferers have some form of sleep disordered breathing. However, little has been done so far to simultaneously monitor, analyse and treat the two conditions. Therefore, this project proposes to develop new technology incorporating mathematical models for heart rate variability, considering the links between sleep disordered breathing and cardiovasc ....New techniques for modelling, diagnosis and counter measures for cardiac related sleep disordered breathing. Around 50% of congestive heart failure sufferers have some form of sleep disordered breathing. However, little has been done so far to simultaneously monitor, analyse and treat the two conditions. Therefore, this project proposes to develop new technology incorporating mathematical models for heart rate variability, considering the links between sleep disordered breathing and cardiovascular disease. This innovation will enable, for the first time, a device capable of accurate and reliable diagnosis of various sleep disorders using only conventional ECG data. Such technology has the potential to produce significant community health benefits, and save several millions of lives worldwide.Read moreRead less
Building a Smart Diagnostic System for Low Back Ailments. This research will develop an early back ailment diagnostic system that will reduce the recurrence of low back pain, and hence reduce the cost to the health system. This is significant to the community from prevention of pain, to the health care system that spends billions of dollars combating this modern day ailment and towards the industry where the low back pain is the single largest reason for sick leave in Australia. It will also giv ....Building a Smart Diagnostic System for Low Back Ailments. This research will develop an early back ailment diagnostic system that will reduce the recurrence of low back pain, and hence reduce the cost to the health system. This is significant to the community from prevention of pain, to the health care system that spends billions of dollars combating this modern day ailment and towards the industry where the low back pain is the single largest reason for sick leave in Australia. It will also give rise to employment of skilled technical people and an opportunity to increase high-value exports from Australia.Read moreRead less
Modulation of protein folding pathways: a new platform technology for molecular medicine. Misfolding of proteins is becoming recognised as a major cause of inherited disease. We propose to develop a chemical agent that will optimise the folding of alpha1-antitrypsin (AAT), misfolding of which gives rise to inheritable liver and lung disease. This agent will have potential application as a therapy for sufferers of AAT-misfolding disease and for improving the yield of AAT purified from human plasm ....Modulation of protein folding pathways: a new platform technology for molecular medicine. Misfolding of proteins is becoming recognised as a major cause of inherited disease. We propose to develop a chemical agent that will optimise the folding of alpha1-antitrypsin (AAT), misfolding of which gives rise to inheritable liver and lung disease. This agent will have potential application as a therapy for sufferers of AAT-misfolding disease and for improving the yield of AAT purified from human plasma, which is the current agent used to treat patients with AAT-misfolding disease.Read moreRead less
Bridging the gap between global mechanics and regional imaging in the lungs. The detailed mechanics of breathing are not well understood, due to a lack of regional lung measurement techniques. This project aims to develop a powerful analysis tool to image in vivo mechanical properties of the lungs. The expected outcome of this project is a novel platform for investigation and understanding of lung function, enabling information previously only available for the whole lung to be calculated for lo ....Bridging the gap between global mechanics and regional imaging in the lungs. The detailed mechanics of breathing are not well understood, due to a lack of regional lung measurement techniques. This project aims to develop a powerful analysis tool to image in vivo mechanical properties of the lungs. The expected outcome of this project is a novel platform for investigation and understanding of lung function, enabling information previously only available for the whole lung to be calculated for local lung regions within the body. The image analysis methods developed are intended to enable respiratory researchers to investigate lung function in unprecedented detail, leading to new insights into the workings of this complicated and vital organ. Read moreRead less
Hybrid imaging/modelling: A new paradigm for understanding the lung. Our lungs are essential to sustain our lives, yet the details of lung biomechanics are barely understood because the available tools, imaging, modelling and simulation have significant limitations. Imaging is largely limited to providing structural information; simulation is severely restricted by a lack of validation; and inverse modelling is critically hampered by a lack of spatially resolved inputs. The project’s multidiscip ....Hybrid imaging/modelling: A new paradigm for understanding the lung. Our lungs are essential to sustain our lives, yet the details of lung biomechanics are barely understood because the available tools, imaging, modelling and simulation have significant limitations. Imaging is largely limited to providing structural information; simulation is severely restricted by a lack of validation; and inverse modelling is critically hampered by a lack of spatially resolved inputs. The project’s multidisciplinary team is uniquely positioned to explore these problems through the hybridisation of world-leading functional lung imaging technology with state-of-the-art modelling. This project aims to provide, perhaps for the first time, the capacity to see details with the resolution of imaging, richness of modelling and reliability of the finest measurements.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101133
Funder
Australian Research Council
Funding Amount
$358,551.00
Summary
Linking structure and function: a new approach for understanding the lung. This project aims to develop a powerful analysis tool to measure gas transport and mixing within lungs. This project will study the mechanical workings of the lungs, using an innovative approach for analysis of lung images. The expected outcome of this project is a novel platform for investigation and understanding of lung function. It is anticipated that application of the project outcomes to medical challenges in the lo ....Linking structure and function: a new approach for understanding the lung. This project aims to develop a powerful analysis tool to measure gas transport and mixing within lungs. This project will study the mechanical workings of the lungs, using an innovative approach for analysis of lung images. The expected outcome of this project is a novel platform for investigation and understanding of lung function. It is anticipated that application of the project outcomes to medical challenges in the long-term will lead to improved diagnostics and treatments for lung diseases.Read moreRead less
Drug particle characterisation. The understanding of drug particle characterizations is one of the key issues in the development of novel nasal sprayers for targeted drug delivery. A comprehensive study is proposed for characterising drug formation in sprayers and particle deposition in nasal cavity using the latest experimental and numerical techniques. A computer-aided design technology will be developed to optimise drug delivery systems. The new technology has great potentials leading to the ....Drug particle characterisation. The understanding of drug particle characterizations is one of the key issues in the development of novel nasal sprayers for targeted drug delivery. A comprehensive study is proposed for characterising drug formation in sprayers and particle deposition in nasal cavity using the latest experimental and numerical techniques. A computer-aided design technology will be developed to optimise drug delivery systems. The new technology has great potentials leading to therapeutic and economic benefits in developing advanced/innovative drug delivery systems and in evaluating the potential biological effects by the drugs to be introduced through the nose.Read moreRead less
OPTIMIZED NASAL DRUG DELIVERY SYSTEMS -- COMPUTER AIDED DESIGN. The aim of this project is to develop a computer-aided design technology to assist in targeted drug delivery through the human nasal cavity which is being recognised to be an excellent alternative route for the administration of medication drugs. The aim will be achieved by conducting computer modelling of nasal flow under realistic physiological conditions and by performing experimental measurements and testing to validate computer ....OPTIMIZED NASAL DRUG DELIVERY SYSTEMS -- COMPUTER AIDED DESIGN. The aim of this project is to develop a computer-aided design technology to assist in targeted drug delivery through the human nasal cavity which is being recognised to be an excellent alternative route for the administration of medication drugs. The aim will be achieved by conducting computer modelling of nasal flow under realistic physiological conditions and by performing experimental measurements and testing to validate computer models. The new technology has great potentials leading to therapeutic and economical benefits in developing advanced/innovative drug delivery systems and in evaluating the potential biological effects by the drugs to be introduced through the nose.Read moreRead less
New techniques to detect fetal heart abnormalities. Australia’s national fetal death rate is 6.7 per one thousand births. In Australia’s Indigenous community it surges to 12.3 deaths per one thousand births. Early diagnosis (and management) of abnormal fetu.ses with cardiac defects will go a long way in reducing these numbers. The proposed technology will help set up easy-to-use systems for fetal cardiac abnormality screening and reduce fetal deaths and congenital heart disease burden in adult l ....New techniques to detect fetal heart abnormalities. Australia’s national fetal death rate is 6.7 per one thousand births. In Australia’s Indigenous community it surges to 12.3 deaths per one thousand births. Early diagnosis (and management) of abnormal fetu.ses with cardiac defects will go a long way in reducing these numbers. The proposed technology will help set up easy-to-use systems for fetal cardiac abnormality screening and reduce fetal deaths and congenital heart disease burden in adult life. This project will also provide domain trained researchers with cutting edge international academic and industry expertise.Read moreRead less