Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100016
Funder
Australian Research Council
Funding Amount
$490,000.00
Summary
Multi-scale fabrication facility for complex three-dimensional surface generation from nano to macro dimensions. This facility will support advances in the manufacturing of free-form surfaces with submicron features. Its unique characteristics, such as the universal profiling ability and nanometre accuracy across large dimensions, will enable many science and engineering innovations which are presently impossible to be realised in Australia.
Rotating Radiofrequency Phased-array for 7 Tesla Magnetic Resonance Imaging. This project aims to develop a new type of radiofrequency coil array to ensure high-field magnetic resonance imaging (MRI), with all its benefits, is available for a broader range of applications. High-field MRI offers faster scans with more detailed images than lower field systems. This enhanced sensitivity potentially enables smaller structures to be resolved in the body. At high fields, however, standard radiofrequen ....Rotating Radiofrequency Phased-array for 7 Tesla Magnetic Resonance Imaging. This project aims to develop a new type of radiofrequency coil array to ensure high-field magnetic resonance imaging (MRI), with all its benefits, is available for a broader range of applications. High-field MRI offers faster scans with more detailed images than lower field systems. This enhanced sensitivity potentially enables smaller structures to be resolved in the body. At high fields, however, standard radiofrequency coils, an essential component of MRI systems, can distort images and induce potentially harmful tissue heating. The aim is to design and develop a rotating multi-channel radiofrequency coil array, with dedicated image reconstruction software, to overcome these limitations. This would facilitate detailed images that can be obtained quickly and safely.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100036
Funder
Australian Research Council
Funding Amount
$310,000.00
Summary
Super high speed grinding facility for difficult-to-machine materials and structures. This unique system will enable the manufacture of difficult-to-machine materials and structures with high quality and high productivity. It will support ground-breaking research activities across the country and help promote the strategic collaborations within Australian manufacturing society.
Developing orthogonal synthetic signaling cascades. This project proposes a generic approach for the construction of molecular switches based on artificially autoinhibited proteases. The bottom-up design of protein-based signaling networks is a key goal of synthetic biology. Yet, this remains elusive due to our inability to tailor-make signal transducers and receptors that can be readily compiled into defined signaling networks. Using structure-guided design and directed protein evolution, a set ....Developing orthogonal synthetic signaling cascades. This project proposes a generic approach for the construction of molecular switches based on artificially autoinhibited proteases. The bottom-up design of protein-based signaling networks is a key goal of synthetic biology. Yet, this remains elusive due to our inability to tailor-make signal transducers and receptors that can be readily compiled into defined signaling networks. Using structure-guided design and directed protein evolution, a set of protease-based signal transducers and ligand activated allosteric receptors will be created. The developed components are intended to be used to construct artificial signaling networks in mammalian cells that are orthogonal to the endogenous signaling cascades.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
A Solution Based Approach Developing Child Health Research With A Focus On Preventive Interventions For Common Childhood
Funder
National Health and Medical Research Council
Funding Amount
$2,599,538.00
Summary
There is an increasing recognition that research into child health should focus not only on disease but also on common childhood disorders such as obesity, depression and poor literacy. In addition, such research should include solution-based activity. That is, child health research should have an active program of testing new interventions to prevent the onset of disorders, or to allow optimal early management. The Murdoch Childrens Research Institute, the largest Australian child health resear ....There is an increasing recognition that research into child health should focus not only on disease but also on common childhood disorders such as obesity, depression and poor literacy. In addition, such research should include solution-based activity. That is, child health research should have an active program of testing new interventions to prevent the onset of disorders, or to allow optimal early management. The Murdoch Childrens Research Institute, the largest Australian child health research institute, is in a very good position to develop Australia's capacity further with regard to a coordinated research program into preventative interventions in child health. This is because of: - the Institute's location at the Royal Children's Hospital, Melbourne, the largest paediatric health service provider in Australia - the many individual relevant research projects that are already occurring in MCRI - the strong existing teams of researchers with skills in many different fields of child health such as psychology, speech pathology, clinical-medical care, epidemiology and biostatistics, and laboratory science including genetics. This capacity building program will coordinate population health work to develop the knowledge and skills of eight population health researchers. This development will occur within the context of an internationally competitive research program with structured continuing education and training to promote public health leadership. The capacity building program will develop skills not only in study design, conduct and analysis, but also in collaboration and the translation of research findings into better health services, government policy and parental knowledge to prevent problems and improve the health and well being of children and their families. To care for children in the best way, parents, families, schools, health care providers, and government need the best evidence base possible on the prevention of common child disorders.Read moreRead less
Advanced Magnetic Resonance Imaging at 7 Tesla: Resolving the fundamental radiofrequency field-tissue interaction problem at ultra-high field. Ultra-high-field Magnetic Resonance Imaging (MRI) systems offer the potential for faster, more accurate diagnostic imaging. However, current applications are limited by the fundamental challenge of strong interactions between the electromagnetic field and human tissues, which result in poor image quality and/or compromised patient safety. Using a novel, s ....Advanced Magnetic Resonance Imaging at 7 Tesla: Resolving the fundamental radiofrequency field-tissue interaction problem at ultra-high field. Ultra-high-field Magnetic Resonance Imaging (MRI) systems offer the potential for faster, more accurate diagnostic imaging. However, current applications are limited by the fundamental challenge of strong interactions between the electromagnetic field and human tissues, which result in poor image quality and/or compromised patient safety. Using a novel, subject-specific imaging approach, this research will design and develop an ultra-high-field radiofrequency technology capable of offering high-performance imaging without jeopardising patient safety. This research will lay the groundwork for the translation of ultra-high field MRI research into clinical practice, generating new capabilities for diagnostic technologies.Read moreRead less
Towards direct imaging of neuronal currents with MRI. This project aims to develop novel neuronal current magnetic resonance imaging (nc-MRI) methods that harness the oscillatory behaviour of neuronal magnetic fields. Current methods of detecting neuronal activity in the living human brain have limited spatial and temporal resolution. Use of nc-MRI aims to overcome these limitations by imaging the effects on the MRI signal of small transient magnetic fields associated with neuronal activity. Sig ....Towards direct imaging of neuronal currents with MRI. This project aims to develop novel neuronal current magnetic resonance imaging (nc-MRI) methods that harness the oscillatory behaviour of neuronal magnetic fields. Current methods of detecting neuronal activity in the living human brain have limited spatial and temporal resolution. Use of nc-MRI aims to overcome these limitations by imaging the effects on the MRI signal of small transient magnetic fields associated with neuronal activity. Signal-to-noise ratio is at the limits of detectability using current imaging systems and nc-MRI is yet to be convincingly demonstrated. An integrated framework for simulating nc-MRI in the visual cortex is expected to be developed.Read moreRead less
Reducing Childbirth Related Fear And Preference For Caesarean Section: A RCT Of A Midwife-led Psycho-education Intervention (APRIME)
Funder
National Health and Medical Research Council
Funding Amount
$487,116.00
Summary
In 2008 34% of mothers had a caesarean section in Queensland. Women who are fearful are more likely to want and have a surgical delivery. We will recruit and train midwives to provide counselling and education about birth choices to fearful women during pregnancy. Our program (APRIME) enables women to work through fearful elements of childbirth, review their expectations/ experiences and develop a realistic plan. We predict that women receiving APRIME will report less fear and prefer a normal bi ....In 2008 34% of mothers had a caesarean section in Queensland. Women who are fearful are more likely to want and have a surgical delivery. We will recruit and train midwives to provide counselling and education about birth choices to fearful women during pregnancy. Our program (APRIME) enables women to work through fearful elements of childbirth, review their expectations/ experiences and develop a realistic plan. We predict that women receiving APRIME will report less fear and prefer a normal birth.Read moreRead less