Mechanism of action of an anti-inflammatory compound which targets alternatively activated macrophages. The project will study the mechanism by which a novel anti-inflammatory compound, developed by our commercial partner, suppresses the activity of a population of cells known as alternatively activated macrophages. These cells play a key role in driving allergic inflammation, including the inflammation associated with asthma.
Investigations into and development of an intelligent decision support system for general practitioners in home-based sleep disorder diagnosis. Sleep disorders cost the Australian health system an estimated $40 million per year. General practitioner's surgeries are not well equipped to deal with diagnosis and the majority of the referrals to specialists are unnecessary. This research will investigate and develop an intelligent decision support system to provide a cost effective solution to thi ....Investigations into and development of an intelligent decision support system for general practitioners in home-based sleep disorder diagnosis. Sleep disorders cost the Australian health system an estimated $40 million per year. General practitioner's surgeries are not well equipped to deal with diagnosis and the majority of the referrals to specialists are unnecessary. This research will investigate and develop an intelligent decision support system to provide a cost effective solution to this problem. The developed software application will enable sleep study to be carried out at home, enabling general practitioners to conduct a preliminary diagnosis. Benefits include a reduction in the costs incurred in travel, time off work and at hospital sleep care centres for people in remote areas.Read moreRead less
Increasing the utility of tetanus toxins by protein engineering. There are a variety of common diseases that are the result of muscular defects. Some of these may be able to be treated with an agent that increases muscle tone, thereby giving benefit to the patient in the alleviation of symptoms. This project aims to use some of the most potent substances known, bacterial toxins, and engineer them to be valuable agents for treatment of certain muscular disorders.
Reduction of Legionnaires' Disease from Cooling Towers. Inhaled water droplets containing Legionella bacteria can cause potentially fatal Legionnaires? disease. Algae are the main source of organic matter in cooling towers on which Legionella feed. If droplets are prevented from leaving the tower they cannot cause disease. If no light enters a cooling tower no algae grow. This project aims to identify and develop designs and measurement methods for cooling towers which give low levels of drople ....Reduction of Legionnaires' Disease from Cooling Towers. Inhaled water droplets containing Legionella bacteria can cause potentially fatal Legionnaires? disease. Algae are the main source of organic matter in cooling towers on which Legionella feed. If droplets are prevented from leaving the tower they cannot cause disease. If no light enters a cooling tower no algae grow. This project aims to identify and develop designs and measurement methods for cooling towers which give low levels of droplets leaving and light entering. The new designs will reduce Legionnaires? disease infections by hundreds of times which eliminates a major urban hazard in Australia.Read moreRead less
Domestic air quality: towards the setting of guidelines. Air quality standards have been developed to protect human health. Although people spend most of their time indoors there are no standards and only a few guidelines for indoor air pollution (IAP). The aim of this study is to investigate the levels of IAP that may worsen asthma in children. Childhood asthma will be used as a health indicator due to its high prevalence, cost to the healthcare system and implications for respiratory morbidity ....Domestic air quality: towards the setting of guidelines. Air quality standards have been developed to protect human health. Although people spend most of their time indoors there are no standards and only a few guidelines for indoor air pollution (IAP). The aim of this study is to investigate the levels of IAP that may worsen asthma in children. Childhood asthma will be used as a health indicator due to its high prevalence, cost to the healthcare system and implications for respiratory morbidity in adult life. We expect to identify levels of IAP that will represent a health risk as well as the factors that may contribute to increased IAP in homes.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
X-ray Micro-tomography Validation of HRCT-Based Airway Measurements. This project brings together a newly emergent modality of microscopy in the form of 3D X-ray micro-tomography (XRMT) along with leading-edge image analysis to develop breakthrough science in respiratory research aimed at improving the reliability of high resolution computed tomography (HRCT). The project will develop novel 3D lung image segmentation protocols, a stereotactic registration program allowing 3D matching of XRCT and ....X-ray Micro-tomography Validation of HRCT-Based Airway Measurements. This project brings together a newly emergent modality of microscopy in the form of 3D X-ray micro-tomography (XRMT) along with leading-edge image analysis to develop breakthrough science in respiratory research aimed at improving the reliability of high resolution computed tomography (HRCT). The project will develop novel 3D lung image segmentation protocols, a stereotactic registration program allowing 3D matching of XRCT and HRCT data sets, and a validation protocol for quantitative HRCT analysis of airway disease. These outcomes will allow wider application of HRCT to non-invasively follow the dynamics of pulmonary function.Read moreRead less
Improving asthma device use: Innovative models for inter-professional practice. This project falls within the goals of National Priority 2: promoting and maintaining good health. This project has the potential to affect every individual accessing health care in the Australia. Through its approach to and focus on improving the use of asthma medications this project will impact on: the quality use of medicines and health outcomes for patients. Through its focus on health professional relationships ....Improving asthma device use: Innovative models for inter-professional practice. This project falls within the goals of National Priority 2: promoting and maintaining good health. This project has the potential to affect every individual accessing health care in the Australia. Through its approach to and focus on improving the use of asthma medications this project will impact on: the quality use of medicines and health outcomes for patients. Through its focus on health professional relationships and interdisciplinary approach to community health care it will result in: improved interprofessional relationships and a model of collaboration which has the potential to be implemented on a broad scale in the community.Read moreRead less
Advanced nanotechnologies for targeting biofilms. Advanced nanotechnologies for targeting biofilms. This project aims to develop nano-particulate systems based on a single platform technology that can be delivered as an aerosol. The current lack of a suitable formulation and delivery system hinders the eradication of fungal and bacterial biofilms from surfaces. These new systems will have enhanced residency time, penetration properties and effectiveness in biofilms. This project intends to under ....Advanced nanotechnologies for targeting biofilms. Advanced nanotechnologies for targeting biofilms. This project aims to develop nano-particulate systems based on a single platform technology that can be delivered as an aerosol. The current lack of a suitable formulation and delivery system hinders the eradication of fungal and bacterial biofilms from surfaces. These new systems will have enhanced residency time, penetration properties and effectiveness in biofilms. This project intends to understand the properties that govern the formation and interactions in these systems, and develop in-vitro tools that the wider scientific community can use. The project expects to generate a single platform that can be used for the eradication of biofilms in numerous applications, from healthcare to agriculture.Read moreRead less
Improving respiratory drug delivery through targeted nozzle design. The project aims to develop designs for inhaler components which significantly reduce the existing variability in the sprays they produce, as well as an enhanced capacity to predict inhaler performance through development of new empirical models. This project will combine recently developed synchrotron x-ray measurement techniques with traditional visible light diagnostics to develop a greater understanding of the link between t ....Improving respiratory drug delivery through targeted nozzle design. The project aims to develop designs for inhaler components which significantly reduce the existing variability in the sprays they produce, as well as an enhanced capacity to predict inhaler performance through development of new empirical models. This project will combine recently developed synchrotron x-ray measurement techniques with traditional visible light diagnostics to develop a greater understanding of the link between the geometry of pressurised, metered-dose inhaler components and the drug particles these devices produce. The long term benefit from this research will be improved delivery efficiency and shorter product development times, leading to reduced dose-rate costs. This understanding will enable the development of the next generation of treatment devices with enhanced efficiency in delivery of the drugs used to treat these diseases and reduced costs per dose.Read moreRead less