Transceive Phased Arrays for Parallel Imaging in High Field Magnetic Resonance Microscopy. This project will contribute to the development of a new generation of Magnetic Resonance Imaging systems that provide new and innovative features capable of significantly increasing the resolution and /or speed of imaging. The economic benefit of being a developer of this technology is clear and significant. These new systems will enhance the efficiency and power of clinical diagnostic testing. Specifica ....Transceive Phased Arrays for Parallel Imaging in High Field Magnetic Resonance Microscopy. This project will contribute to the development of a new generation of Magnetic Resonance Imaging systems that provide new and innovative features capable of significantly increasing the resolution and /or speed of imaging. The economic benefit of being a developer of this technology is clear and significant. These new systems will enhance the efficiency and power of clinical diagnostic testing. Specifically, the enabling of molecular imaging will enhance the study of many more disease states and rapid assessment of new in vivo therapeutic agents. The side-stream benefit to biomedical research and development in Australia is therefore substantial. Read moreRead less
Novel Transmission Scanning and Computational Strategies for Quantitative microPET Imaging. Advances in detector technologies have led to the development and commercialisation of small animal imaging systems such as microPET which provide high resolution images of radioactive compounds in live animals, but the images can only be interpreted qualitatively. Our aim is to develop quantitative technologies for these new imaging systems. Major outcomes will include novel methods of measuring and corr ....Novel Transmission Scanning and Computational Strategies for Quantitative microPET Imaging. Advances in detector technologies have led to the development and commercialisation of small animal imaging systems such as microPET which provide high resolution images of radioactive compounds in live animals, but the images can only be interpreted qualitatively. Our aim is to develop quantitative technologies for these new imaging systems. Major outcomes will include novel methods of measuring and correcting for signal loss due to photon interactions in the body and integrated image reconstruction algorithms. This will lead to a new generation of quantitative imaging devices; the new technologies will be directly translatable to clinical imaging systems and will broaden the range of microPET applications in the life sciences.Read moreRead less
New high resolution radiation dose mapping of special type polymer-gel dosimeters using mini-MRI scanner of high (4.7 Tesla) magnetic field. Gel dosimeters main advantage is dose determination in 3-dimensions. Their main limitation is low spatial-resolution. We propose fabrication of special-type gels and for the first time use the 4.7 Tesla mini-scanner for dose mapping. Increased magnetic field combined with a small aperture for field dissipation will greatly improve spatial resolution down t ....New high resolution radiation dose mapping of special type polymer-gel dosimeters using mini-MRI scanner of high (4.7 Tesla) magnetic field. Gel dosimeters main advantage is dose determination in 3-dimensions. Their main limitation is low spatial-resolution. We propose fabrication of special-type gels and for the first time use the 4.7 Tesla mini-scanner for dose mapping. Increased magnetic field combined with a small aperture for field dissipation will greatly improve spatial resolution down to micrometers (micro-dosimetry). This new technique will render gel-dosimeters suitable for applications in radiotherapy, industrial and all other radiation fields. Moreover, we will employ new parameter for dose mapping, which is expected to be more sensitive to radiation than the currently used relaxation timesRead moreRead less
Advanced technologies for laser refractive surgery. People who wear glasses can now undergo laser eye-surgery to correct their focussing problems. While many can ?throw away their glasses?, the results are optimised for one viewing situation so that when people move their eyes or refocus, visual clarity is not perfect. We need precise measurements of the eye's shape under dynamic conditions to understand exactly how optical distortions (aberrations) affect clarity of sight. This project is to b ....Advanced technologies for laser refractive surgery. People who wear glasses can now undergo laser eye-surgery to correct their focussing problems. While many can ?throw away their glasses?, the results are optimised for one viewing situation so that when people move their eyes or refocus, visual clarity is not perfect. We need precise measurements of the eye's shape under dynamic conditions to understand exactly how optical distortions (aberrations) affect clarity of sight. This project is to build a laser device that incorporates a deformable mirror to investigate the interplay between aberrations and visual clarity. This new knowledge is a vital next step to improve laser eye-surgery success.Read moreRead less
Diamond-based Ultra Violet (UV)-emitting devices. The development of UV-emitting solid state devices will enable new applications and drive rapid growth of new industries in particular in health care (sterilisation), microelectronics (lithography) and high-density data storage. With its deep expertise in photonics, Australia is well positioned to become a significant player in these industries. This collaborative project, involving academic and industrial partners, seeks to leverage Australian s ....Diamond-based Ultra Violet (UV)-emitting devices. The development of UV-emitting solid state devices will enable new applications and drive rapid growth of new industries in particular in health care (sterilisation), microelectronics (lithography) and high-density data storage. With its deep expertise in photonics, Australia is well positioned to become a significant player in these industries. This collaborative project, involving academic and industrial partners, seeks to leverage Australian scientific expertise to create new hybrid diamond/nitride structures potentially capable of emitting UV-radiation with high-efficiency and power. The outcomes will help seed new industry and economic growth in Australia.Read moreRead less
Optical supercontinuum generation from high pulse-energy optical sources. The aim of this project is to develop a broadband and high brightness optical fibre source based on optical supercontinuum generation (i.e. low-coherence optical signals with octave or more bandwidth). Unlike similar sources demonstrated recently which rely on expensive bulk femtosecond pump lasers, this source will be pumped by a large pulse-energy optical fibre laser and use stimulated Raman scattering to seed the contin ....Optical supercontinuum generation from high pulse-energy optical sources. The aim of this project is to develop a broadband and high brightness optical fibre source based on optical supercontinuum generation (i.e. low-coherence optical signals with octave or more bandwidth). Unlike similar sources demonstrated recently which rely on expensive bulk femtosecond pump lasers, this source will be pumped by a large pulse-energy optical fibre laser and use stimulated Raman scattering to seed the continuum generation. The primary outcome will be a compact low-cost all-fibre supercontinuum source with a wide range of applications in areas such as optical metrology, optical coherence tomography, and high resolution non-contact position and motion sensing.Read moreRead less
Development of electrical probes and advanced classification algorithms for early detection of cancer. The curable precursor of cervical cancer is cervical intra-epithelial neoplasia (CIN). Various cancer probes will be constructed for the identification of CIN based on electrical measurements on tissue. Through studies of the cellular structure and the junction between cells, a theoretical model of the electrode/mucus/tissue system will be developed at and below the surface of the tissue under ....Development of electrical probes and advanced classification algorithms for early detection of cancer. The curable precursor of cervical cancer is cervical intra-epithelial neoplasia (CIN). Various cancer probes will be constructed for the identification of CIN based on electrical measurements on tissue. Through studies of the cellular structure and the junction between cells, a theoretical model of the electrode/mucus/tissue system will be developed at and below the surface of the tissue under examination. Theoretical modelling, probe development and detection algorithms will be used to identify CIN in real-time with concurrently high sensitivity and specificity. Effective electrical probes for early detection of cancer (cervical, lung and breast) will be of enormous national and international benefit.Read moreRead less
Improved methods for quantitation of acute phase proteins in biological samples. Using monoclonal antibodies and fluorescence polarisation, we aim to develop improved quantitative analytical methods that are superior to the current clinical assays. The initial targets will be C-reactive protein (CRP) and serum amyloid precursor protein (SAP), but the technology should be readily adaptable to other serum proteins. Better assays for CRP and SAP will greatly facilitate improved clinical management ....Improved methods for quantitation of acute phase proteins in biological samples. Using monoclonal antibodies and fluorescence polarisation, we aim to develop improved quantitative analytical methods that are superior to the current clinical assays. The initial targets will be C-reactive protein (CRP) and serum amyloid precursor protein (SAP), but the technology should be readily adaptable to other serum proteins. Better assays for CRP and SAP will greatly facilitate improved clinical management of those at risk of heart attack, the single biggest contributor to healthcare costs in Australia. We further aim to adapt this technology to enable "point-of-care" assays that would help medical practitioners, especially in rural areas, to make informed diagnoses immediately.Read moreRead less
Combined optical and electrical stimulation of auditory neurons. The bionic ear, which has now helped to improve the hearing of over 200,000 people worldwide, is a great example of Australian innovation success. This project aims to develop the fundamental technology that will underpin the next generation of these devices using a combination of infrared light and electrical signals to stimulate auditory nerves.
Novel EEG data mining methods for detecting and monitoring brain injury. The outcomes of this project could ultimately help produce novel technology which would enable bedside monitoring of brain function in patients with brain injuries such as stroke. This technology could aid critical care and treatment of such patients. Hence patients' recoveries could be positively affected and the high death or disability rates associated with such conditions could be reduced. A host of economic and social ....Novel EEG data mining methods for detecting and monitoring brain injury. The outcomes of this project could ultimately help produce novel technology which would enable bedside monitoring of brain function in patients with brain injuries such as stroke. This technology could aid critical care and treatment of such patients. Hence patients' recoveries could be positively affected and the high death or disability rates associated with such conditions could be reduced. A host of economic and social benefits for patients, their families, hospitals and their staff, governments and healthcare organisations could thus result. The developed technology would be non-invasive, compact and relatively inexpensive, and could thus be used in rural and regional hospitals, thereby also benefiting patients in those communities. Read moreRead less