Information support tools for the trauma patient pathway. Processes such as critical supply chain management, disaster management, and trauma patient pathways need people, resources, and information to be smoothly transferred between jurisdictions, but problems can occur at each handover. This project focuses on the prehospital to hospital patient pathway and aims to develop technologies, devices, and displays to support more effective handover of patients between jurisdictions. The project will ....Information support tools for the trauma patient pathway. Processes such as critical supply chain management, disaster management, and trauma patient pathways need people, resources, and information to be smoothly transferred between jurisdictions, but problems can occur at each handover. This project focuses on the prehospital to hospital patient pathway and aims to develop technologies, devices, and displays to support more effective handover of patients between jurisdictions. The project will conduct field research, design activities, and simulation-based evaluation of prototypes with healthcare professionals. Expected outcomes are designs, technologies, and guidelines that will generalise to other multi-jurisdictional processes. Benefits are safer and more efficient handover processes.Read moreRead less
Magnetic Resonance Imaging in Inhomogeneous Magnetic Fields-Part A: The Development of Imaging Methods Using Even Order Zonal Fields. Part B: Slice Correction Due to Non-linear Gradient Fields. The primary aims of this project are to contribute to the new generation of MRI methodologies through technical innovation, with particular emphasis on NMR imaging under inhomogeneous magnetic fields. The new techniques will be of enormous benefit for superconducting magnet design, reducing material usage ....Magnetic Resonance Imaging in Inhomogeneous Magnetic Fields-Part A: The Development of Imaging Methods Using Even Order Zonal Fields. Part B: Slice Correction Due to Non-linear Gradient Fields. The primary aims of this project are to contribute to the new generation of MRI methodologies through technical innovation, with particular emphasis on NMR imaging under inhomogeneous magnetic fields. The new techniques will be of enormous benefit for superconducting magnet design, reducing material usage, and eliminating the need for the expensive post-production shimming process. The entailed project is extremely challenging, while preliminary calculations presented in this application show some progress towards demonstration of feasibility. The program is an ambitious one with a full R&D program over 3 years, which will provide leadership, and to both foster and focus research interest in Australian engineering and scientific endeavors in the field of Magnetic Resonance technology.Read moreRead less
High Field Magnetic Resonance Engineering. The use of high resolution MRI is increasingly important in the quest for molecular imaging and the development of a range of gene therapies, stem cell research and the trialling of new drugs. This research will add momentum to Australia's health technology research community with positive impact on its international research and development profile. Successful outcomes will improve both the applicability and cost-effectiveness of numerous current and ....High Field Magnetic Resonance Engineering. The use of high resolution MRI is increasingly important in the quest for molecular imaging and the development of a range of gene therapies, stem cell research and the trialling of new drugs. This research will add momentum to Australia's health technology research community with positive impact on its international research and development profile. Successful outcomes will improve both the applicability and cost-effectiveness of numerous current and potential medical and non-medical imaging systems with subsequent potential for improved diagnosis in the biotech and health sectors in Australia and overseas. Successful outcomes will provide economic returns through licensing payments from the generated intellectual property.Read moreRead less
Advanced MRI Engineering. Magnetic Resonance Imaging is rapidly becoming the medical imaging modality of choice for soft tissue injuries. The technology development of MRI, however, is relatively young with only 20 years or so of commercial development. The major aim of this project is to contribute to this and the next generation of MRI scanners through technical innovation. New engineering design methods will be developed and used to generate novel superconducting magnet systems and associated ....Advanced MRI Engineering. Magnetic Resonance Imaging is rapidly becoming the medical imaging modality of choice for soft tissue injuries. The technology development of MRI, however, is relatively young with only 20 years or so of commercial development. The major aim of this project is to contribute to this and the next generation of MRI scanners through technical innovation. New engineering design methods will be developed and used to generate novel superconducting magnet systems and associated equipment. A strong focus of the design work will be to include electromagnetic models of the patient in the equipment design. This will not only ensure improved accuracy and speed of MRI scans, but also better patient safety, comfort and clinician access.Read moreRead less
Solutions for reducing magnetic resonance image degradations and tissue heating at high frequencies. This project will contribute to the development of the high-end Magnetic Resonance Imaging (MRI) systems that can substantially improve the image quality, speed of imaging and patient safety in MRI. The project will develop innovative high radio frequency hardware and control methods for imaging. Successful outcomes of this project will, facilitate higher patient throughput in hospitals, provisi ....Solutions for reducing magnetic resonance image degradations and tissue heating at high frequencies. This project will contribute to the development of the high-end Magnetic Resonance Imaging (MRI) systems that can substantially improve the image quality, speed of imaging and patient safety in MRI. The project will develop innovative high radio frequency hardware and control methods for imaging. Successful outcomes of this project will, facilitate higher patient throughput in hospitals, provision of more powerful clinical imaging tools to aid early diagnosis and various research modalities ranging from molecular to real-time imaging during interventional procedures.Read moreRead less
The “New” Biochemistry of Polyamines: When Metabolic Pathways Collide. Basic biochemistry and the metabolic regulation of proliferation remain as the fundamental building blocks of knowledge in cell biology that have enabled breakthrough advances in biology and medicine. Polyamines are unique and ubiquitous low-Mr amines that play vital roles in many biological processes, including proliferation, DNA/RNA synthesis, etc. This proposal will mechanistically dissect the "new" biochemistry of polyami ....The “New” Biochemistry of Polyamines: When Metabolic Pathways Collide. Basic biochemistry and the metabolic regulation of proliferation remain as the fundamental building blocks of knowledge in cell biology that have enabled breakthrough advances in biology and medicine. Polyamines are unique and ubiquitous low-Mr amines that play vital roles in many biological processes, including proliferation, DNA/RNA synthesis, etc. This proposal will mechanistically dissect the "new" biochemistry of polyamines, as we have discovered that polyamines are regulated by iron at 2-major levels, involving >10-key polyamine pathway proteins. This proposal represents first-in-field studies specifically designed to dissect mechanisms involved in this relationship. Our Central Hypothesis is that iron regulates polyamine metabolism.Read moreRead less
Understanding how RNA editing regulates RNA fate. This project aims to address how RNA editing mediated by ADAR1 alters the interactions of targeted RNA with the innate immune sensing system. ADAR1 editing converts adenosine to inosine within double stranded RNA. It is known that this is key to prevent activation of the innate immune sensor MDA5 by endogenous RNA. However, we do not understand why edited RNA is tolerated and unedited RNA is not. This project will generate new knowledge regarding ....Understanding how RNA editing regulates RNA fate. This project aims to address how RNA editing mediated by ADAR1 alters the interactions of targeted RNA with the innate immune sensing system. ADAR1 editing converts adenosine to inosine within double stranded RNA. It is known that this is key to prevent activation of the innate immune sensor MDA5 by endogenous RNA. However, we do not understand why edited RNA is tolerated and unedited RNA is not. This project will generate new knowledge regarding the effect of editing on how endogenous RNA is perceived by the innate immune system.Read moreRead less
Trails of migration out of Africa in harmful mutations of the First Peoples. This project aims to study harmful mutations specific to Indigenous populations. The process of migration out of Africa has left its footprints in the mutations present in world populations. By investigating these unique signatures, this project aims to characterise the harmful mutations specific to Aboriginal Australians using the whole genome sequences of the First Peoples. The expected outcomes will benefit future ....Trails of migration out of Africa in harmful mutations of the First Peoples. This project aims to study harmful mutations specific to Indigenous populations. The process of migration out of Africa has left its footprints in the mutations present in world populations. By investigating these unique signatures, this project aims to characterise the harmful mutations specific to Aboriginal Australians using the whole genome sequences of the First Peoples. The expected outcomes will benefit future Aboriginal health research to better understand the mutations associated with various genetic diseases.Read moreRead less
Dielectric contrast imaging for 7 Tesla magnetic resonance applications. This project aims to develop novel radio-frequency (RF) technology, ensuring that the benefits of high-field magnetic resonance imaging (MRI) are available for a broader range of applications. This project will develop a new contrast mechanism directly related to the RF properties of individual tissue types, circumventing a limitation of intensity based imaging. This technology will enhance Australia’s global impact the dev ....Dielectric contrast imaging for 7 Tesla magnetic resonance applications. This project aims to develop novel radio-frequency (RF) technology, ensuring that the benefits of high-field magnetic resonance imaging (MRI) are available for a broader range of applications. This project will develop a new contrast mechanism directly related to the RF properties of individual tissue types, circumventing a limitation of intensity based imaging. This technology will enhance Australia’s global impact the development of imaging technology for healthcare, biomedical research and advanced diagnostics.Read moreRead less
Levelling the Playing Field: Starting with the School Playground. This project aims to demonstrate the effectiveness of simple, cost-effective programs for changing the way parents and teachers view manageable risk-taking for children with disabilities and increasing the level of responsibility that children take for their own actions. The well-being of all children with disabilities is at risk and the gap continues to widen. New programs, such as the National Disability Insurance Scheme, will p ....Levelling the Playing Field: Starting with the School Playground. This project aims to demonstrate the effectiveness of simple, cost-effective programs for changing the way parents and teachers view manageable risk-taking for children with disabilities and increasing the level of responsibility that children take for their own actions. The well-being of all children with disabilities is at risk and the gap continues to widen. New programs, such as the National Disability Insurance Scheme, will place increasing demands on young people with disabilities. Innovative approaches are desperately. Such programming must begin early, by including children in an age-appropriate ways and simultaneously addressing the issues of adults who have the most significant influence: parents and teachers.Read moreRead less