Rare isotopes as tracers of prosthesis debris. The incidence of knee replacement surgery in Australia is 30,000 per year. Limited by wear debris, the lifespan of knee implants is only 10-15 years and can be much shorter. Due to increasing life expectancy, many patients need several surgical procedures. As a multi-disciplinary team of materials-, isotope-tracing- and medical-experts, we aim to understand and monitor wear debris in prostheses. Knee replacement surgery alone imposes a high burden o ....Rare isotopes as tracers of prosthesis debris. The incidence of knee replacement surgery in Australia is 30,000 per year. Limited by wear debris, the lifespan of knee implants is only 10-15 years and can be much shorter. Due to increasing life expectancy, many patients need several surgical procedures. As a multi-disciplinary team of materials-, isotope-tracing- and medical-experts, we aim to understand and monitor wear debris in prostheses. Knee replacement surgery alone imposes a high burden of annually half a billion dollars on the Australian health budget. Controlling and reducing wear debris in prosthesis joints would reduce these costs and improve patients' quality of life.Read moreRead less
Biomimetic Insights from Enamel: A Nano-mechanical and Nano-structural Investigation of a Natural Ceramic-like Biocomposite. Enamel is a naturally developed example of an optimised material structure that constitutes the hardest tissue in the human body. In addition it is exposed to severe mechanical and environmental challenges and must last the lifetime of the individual and unlike other tissue is unable to heal or repair itself. Understanding the factors controlling the amazing mechanical pr ....Biomimetic Insights from Enamel: A Nano-mechanical and Nano-structural Investigation of a Natural Ceramic-like Biocomposite. Enamel is a naturally developed example of an optimised material structure that constitutes the hardest tissue in the human body. In addition it is exposed to severe mechanical and environmental challenges and must last the lifetime of the individual and unlike other tissue is unable to heal or repair itself. Understanding the factors controlling the amazing mechanical properties of this tissue will be of great benefit for the design of bio-inspired materials and be important for the development of advanced materials for which Australia already has an enviable reputation.Read moreRead less
Scaling-up microstructured fibres for terahertz radiation. Terahertz radiation is the last region of the electromagnetic spectrum to be fully utilised. Many applications have been identified but their practicality has been limited by a lack of low-loss flexible waveguides. The waveguides to be developed in this project will build on Australia's existing international lead and investments in photonics as well as extend the dynamic field of microstructured optical fibres, indentified as the 'futur ....Scaling-up microstructured fibres for terahertz radiation. Terahertz radiation is the last region of the electromagnetic spectrum to be fully utilised. Many applications have been identified but their practicality has been limited by a lack of low-loss flexible waveguides. The waveguides to be developed in this project will build on Australia's existing international lead and investments in photonics as well as extend the dynamic field of microstructured optical fibres, indentified as the 'future' of optical fibres. Low-loss flexible waveguides will enable imaging and spectroscopy applications that can reveal and object's internal structure and composition. This will have immediate applications in security, quality control, medical imaging and other safety or industrial applications.Read moreRead less
Drug-delivery coating for a new generation of orthopaedic implants. In Australia, the number of people using artificial implants in orthopaedic and dental surgeries is rapidly increasing due to the higher average age of the population and higher expectations for an active and healthy life. The project will enhance the success rate of titanium implants by increasing the strength and stability of tissue at the interface between implant and host, particularly in case of hip joint implants, reducing ....Drug-delivery coating for a new generation of orthopaedic implants. In Australia, the number of people using artificial implants in orthopaedic and dental surgeries is rapidly increasing due to the higher average age of the population and higher expectations for an active and healthy life. The project will enhance the success rate of titanium implants by increasing the strength and stability of tissue at the interface between implant and host, particularly in case of hip joint implants, reducing the need for revision surgery. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668257
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
Combinatorial Deposition and Characterisation Facility for New Alloy Thin Film Materials. Australia's competitive edge in materials research is key to maintaining our economic prosperity. Infrastructure that enables our researchers to synthesize novel materials with precise control over composition and structure is crucial to maintaining our strengths in this field. The proposed infrastructure will accelerate progress on the preparation and characterisation of new alloy and nanostructured materi ....Combinatorial Deposition and Characterisation Facility for New Alloy Thin Film Materials. Australia's competitive edge in materials research is key to maintaining our economic prosperity. Infrastructure that enables our researchers to synthesize novel materials with precise control over composition and structure is crucial to maintaining our strengths in this field. The proposed infrastructure will accelerate progress on the preparation and characterisation of new alloy and nanostructured materials and will pay dividends by providing early access to the best materials. This will give our energy technology, biomedical engineering, tooling, electronics and mining industries a competitive edge. Access to this new generation equipment will enhance our pool of highly skilled materials technologists.Read moreRead less
The Genie in the Bottle:Science, Politics and Diplomacy in Australia's Engagement with Chemical and Biological Weapons, 1915-1995. The threat of chemical and biological weapons (CBW) is attracting increasing attention worldwide. Australia's engagement with the CBW began during the First World War. Since then, Australia has been influential in promoting CBW control regimes. However, this experience has raised many questions. This project explores Australia's historical and current response to ....The Genie in the Bottle:Science, Politics and Diplomacy in Australia's Engagement with Chemical and Biological Weapons, 1915-1995. The threat of chemical and biological weapons (CBW) is attracting increasing attention worldwide. Australia's engagement with the CBW began during the First World War. Since then, Australia has been influential in promoting CBW control regimes. However, this experience has raised many questions. This project explores Australia's historical and current response to the central issues of CBW. Using archival and contemporary sources, it analyses the interplay between science, politics and diplomacy. Combining history and political science, it assesses the implications of recent developments in CBW for Australia's role in preventing the proliferation of weapons of mass destruction.Read moreRead less
Regulation of large artery stiffness by endothelium-derived mediators and effects on the arterial pressure waveform. Stiffening of arteries is an important cardiovascular risk factor and increases with age, high blood pressure, high cholesterol and diabetes. Cells that line the blood vessels (endothelial cells), become damaged and this reduces the available amount of a dilator substance, nitric oxide, and increases the activity of a constrictor substance, endothelin-1. We have shown that nitric ....Regulation of large artery stiffness by endothelium-derived mediators and effects on the arterial pressure waveform. Stiffening of arteries is an important cardiovascular risk factor and increases with age, high blood pressure, high cholesterol and diabetes. Cells that line the blood vessels (endothelial cells), become damaged and this reduces the available amount of a dilator substance, nitric oxide, and increases the activity of a constrictor substance, endothelin-1. We have shown that nitric oxide regulates large artery stiffness and we believe that other endothelial mediators are also important regulators. Therefore, we aim to explore this in a series of studies. Regulation of stiffness of large arteries will improve treatment of age-related cardiovascular disease (eg isolated systolic hypertension)Read moreRead less
The Characterisation of Fires in Tunnels. A series of 22 fires ranging from 2 megawatt up to 20 megawatt intensity will be set under controlled conditions in unused tunnel facilities, in New South Wales. Instrumentation in the tunnel, donated by the State Rail Authority of New South Wales, will monitor the movement of particulates (smoke). This information is vital to tunnel design, and for passenger life safety. This information will be applicable to all tunnels worldwide.
Enhanced Mixing Through Particle Motion in Micro-Channels. This study will help place Australia within the forefront of one the key technological endeavours of this century, the development of small-scale microfluidic devices, and, thus, should enable Australian industry to benefit relatively early from these new developments. This new research field seeks to exploit many of the major advances being made in science and engineering. Therefore, the work proposed here clearly addresses the Federal ....Enhanced Mixing Through Particle Motion in Micro-Channels. This study will help place Australia within the forefront of one the key technological endeavours of this century, the development of small-scale microfluidic devices, and, thus, should enable Australian industry to benefit relatively early from these new developments. This new research field seeks to exploit many of the major advances being made in science and engineering. Therefore, the work proposed here clearly addresses the Federal Government's National Research Priority 3, Frontier Technologies for Building and Transforming Australian Industries (priority goals: Breakthrough Science & Frontier Technology). The study will also support the research training of two postgraduate students.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775649
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
An Integrated Multi-Node Microfluidics Facility. The establishment of the proposed facility will enhance Australia's position in microfluidics research, thus contributing to all National Priority areas, particularly the National Priority area 3 through advancement in breakthrough science and frontier technologies. In addition to researchers from participating institutions, the Facility will be made available to other Australian researchers from non-participating organisations at minimum cost. Th ....An Integrated Multi-Node Microfluidics Facility. The establishment of the proposed facility will enhance Australia's position in microfluidics research, thus contributing to all National Priority areas, particularly the National Priority area 3 through advancement in breakthrough science and frontier technologies. In addition to researchers from participating institutions, the Facility will be made available to other Australian researchers from non-participating organisations at minimum cost. The socio-economic potentials of the research carried out using the proposed facility are significant and include: R&D development, small scale high technology manufacture, exports, and improved methods of biochemical processing and medical diagnostics.Read moreRead less