Functional nonlinear optical endoscopy - the third-generation optical endoscopy technology toward early cancer detection at a cellular level. The third-generation optical endoscopy technology can be used for a better understanding of nonlinear optical interaction with organ sites and thus for early cancer detection. Such a novel device will enable biomedical scientists to gain the fundamental knowledge needed to enable Australians to develop better medical strategies for health and productive li ....Functional nonlinear optical endoscopy - the third-generation optical endoscopy technology toward early cancer detection at a cellular level. The third-generation optical endoscopy technology can be used for a better understanding of nonlinear optical interaction with organ sites and thus for early cancer detection. Such a novel device will enable biomedical scientists to gain the fundamental knowledge needed to enable Australians to develop better medical strategies for health and productive lives. Since 1 in 3 Australians will feel the effects of cancers, development of portable nonlinear optical endoscopes is of national importance, in particular for rural Australia, and therefore improves the healthcare of human beings. The potential spin-off activity will lead to economic benefits from new R&D development.Read moreRead less
Fabrication and Application of Ion-Sensors Based on the Voltammetry of Nanocrystals Adhered to Electrode Surfaces. A significant need exists for the low cost determination of cations and anions in biologically (blood, urine), industrially (process streams) and environmentally (rivers, lakes) important fluids. In this project, skills in sensor design, scientific instrumentation, materials science, electrochemistry and analytical science provided by a consortium of scientists at Monash University ....Fabrication and Application of Ion-Sensors Based on the Voltammetry of Nanocrystals Adhered to Electrode Surfaces. A significant need exists for the low cost determination of cations and anions in biologically (blood, urine), industrially (process streams) and environmentally (rivers, lakes) important fluids. In this project, skills in sensor design, scientific instrumentation, materials science, electrochemistry and analytical science provided by a consortium of scientists at Monash University, the Victorian Institute for Chemical Sciences, Oxford Biosensors and Oxford University will be integrated to fabricate and develop applications of commercially viable ion-sensing systems. The principles to be utilised are based on novel forms of voltammetry of nanocrystals adhered to electrode surfaces.Read moreRead less
Phase Contrast X-ray Imaging of the Lung. Lung diseases are a major cause of death in adults, children and newborn infants. Currently, the diagnosis of lung disease is based on clinical symptoms, which usually do not manifest until the disease is well advanced. This project will develop a novel X-ray imaging technique, known as phase contrast imaging, to study the lung, and to potentially detect changes in lung tissue before symptoms arise. This may lead to improved strategies for managing newbo ....Phase Contrast X-ray Imaging of the Lung. Lung diseases are a major cause of death in adults, children and newborn infants. Currently, the diagnosis of lung disease is based on clinical symptoms, which usually do not manifest until the disease is well advanced. This project will develop a novel X-ray imaging technique, known as phase contrast imaging, to study the lung, and to potentially detect changes in lung tissue before symptoms arise. This may lead to improved strategies for managing newborn infants, as well as improving the management of lung diseases in adults.Read moreRead less
Development of Novel Two-dimensional Techniques for Magnetic Resonance In-vivo Spectroscopy. Body chemistry alters with functionality, pain, ageing and disease. These changes can be recorded by magnetic resonance (MR) spectroscopy (MRS) in vivo in a whole body MR scanner. When changes in chemistry can be recorded rapidly, and the individual species assigned, it will be possible to make a definitive diagnosis and in some cases allow the tailoring of treatment on an individual basis. This is curre ....Development of Novel Two-dimensional Techniques for Magnetic Resonance In-vivo Spectroscopy. Body chemistry alters with functionality, pain, ageing and disease. These changes can be recorded by magnetic resonance (MR) spectroscopy (MRS) in vivo in a whole body MR scanner. When changes in chemistry can be recorded rapidly, and the individual species assigned, it will be possible to make a definitive diagnosis and in some cases allow the tailoring of treatment on an individual basis. This is currently hampered by our inability to separate the composite resonances in a one dimensional MR spectrum. Research will allow two dimensional MRS to be implemented and provide detailed chemical information on human organs in vivo. Read moreRead less