Transforming drug screening technology. Transforming drug screening technology. This project aims to develop field-leading microchip technology, including the ability to measure contraction of micro-tissues on a chip. Micro-chip technology is in its infancy for use in drug discovery. However, interest in development and applications in Pharma and Biotech industries is immense. The project is intended to take proof-of-concept studies through to the “working model” stage and then to a level of ind ....Transforming drug screening technology. Transforming drug screening technology. This project aims to develop field-leading microchip technology, including the ability to measure contraction of micro-tissues on a chip. Micro-chip technology is in its infancy for use in drug discovery. However, interest in development and applications in Pharma and Biotech industries is immense. The project is intended to take proof-of-concept studies through to the “working model” stage and then to a level of industry-utility, focussing on predictive value, reproducibility and throughput. Successful development of the drug discovery micro-fluidics chip is expected to improve efficiency, reduce the costs and the use of experimental animals.Read moreRead less
The Fluid-Particle Mechanics of a Synthetic Jet-based Dry Powder Inhaler. This project aims to untangle the fundamental principles that govern the fluid mechanics and particulate interactions in a novel concept chip-based micro-zero-net-mass-flux (micro-ZNMF) jet-assisted dry powder inhaler (DPI). Respiratory diseases affect 6.2 million Australians. The treatment of these diseases is hampered by the poor efficiency of current delivery systems, with conventional DPI devices exhibiting sub-optimum ....The Fluid-Particle Mechanics of a Synthetic Jet-based Dry Powder Inhaler. This project aims to untangle the fundamental principles that govern the fluid mechanics and particulate interactions in a novel concept chip-based micro-zero-net-mass-flux (micro-ZNMF) jet-assisted dry powder inhaler (DPI). Respiratory diseases affect 6.2 million Australians. The treatment of these diseases is hampered by the poor efficiency of current delivery systems, with conventional DPI devices exhibiting sub-optimum performance, delivering typically less than 20% of the loaded dose to the target site, the lungs. The new fundamental knowledge resulting from this research will enable the engineering of a high-efficiency groundbreaking DPI, with the potential to be fully adaptive user-specific benefiting millions of Australians. Read moreRead less
Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team ....Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team could make huge and rapid progressions in this area of therapeutics. New intellectual property in the area of therapeutic particle production is the cornerstone of this project and could deliver lasting economic benefits through the creation of new health products and patents.Read moreRead less
The underexpanded impinging jet: a self-forcing flow of critical importance. The project aims to support the development and optimisation of a wide range of industrial processing techniques based on an in-depth understanding of receptivity mechanisms in the under-expanded impinging jet flow. Under-expanded impinging jets have broad applications ranging from aerospace propulsion to additive manufacturing to pharmaceutical drug delivery. By elucidating the underlying physics of this highly complex ....The underexpanded impinging jet: a self-forcing flow of critical importance. The project aims to support the development and optimisation of a wide range of industrial processing techniques based on an in-depth understanding of receptivity mechanisms in the under-expanded impinging jet flow. Under-expanded impinging jets have broad applications ranging from aerospace propulsion to additive manufacturing to pharmaceutical drug delivery. By elucidating the underlying physics of this highly complex flow field, the project aims to facilitate active control methodologies in a range of key industrial flows. The expected outcomes of the research include improving the efficiency and efficacy of a number of industrial processes, as well as increased knowledge about the fundamental science.Read moreRead less
Understanding and modelling platelet flow and binding in blood. Understanding and modelling platelet flow and binding in blood. This project aims to predict how platelets flow through vascular scale geometries, using an experimental and numerical development programme. Platelets maintain a healthy vascular system. Like other cells, they respond to local stimuli: the concentration of chemical agonists, bonds with neighbouring species, fluid dynamic stresses, and even their history. On a single ce ....Understanding and modelling platelet flow and binding in blood. Understanding and modelling platelet flow and binding in blood. This project aims to predict how platelets flow through vascular scale geometries, using an experimental and numerical development programme. Platelets maintain a healthy vascular system. Like other cells, they respond to local stimuli: the concentration of chemical agonists, bonds with neighbouring species, fluid dynamic stresses, and even their history. On a single cell level, many of these biophysical processes are not understood or quantified. At the blood vessel level, multiscale modelling techniques cannot translate this single cell knowledge to capture how collections of platelets behave. This project is expected to lead to better therapies for cardiovascular disease and a new class of strongly interacting multiphase fluid dynamics problems.Read moreRead less
Ultrasonic production of skim milk. Milk will be skimmed using ultrasonic waves and tiny bubbles that separate the fat droplets from whole milk, saving energy and cleaning costs. It will also be possible to precisely select different nutritional compounds from the rich resource that is whole milk, enabling future health products.