Breaking The Wavelength Barrier: Near-Field T-ray Imaging. Australia will benefit from the interaction between engineering, physics, and biology to develop a new T-ray imaging system that will ultimately be able to probe microstructures, biological single cells or even neurons. The project will exploit a powerful new electrooptical technique for obtaining chemical 'fingerprints' at the cellular level. This breakthrough will be a fundamental step towards a system for probing disease states of sin ....Breaking The Wavelength Barrier: Near-Field T-ray Imaging. Australia will benefit from the interaction between engineering, physics, and biology to develop a new T-ray imaging system that will ultimately be able to probe microstructures, biological single cells or even neurons. The project will exploit a powerful new electrooptical technique for obtaining chemical 'fingerprints' at the cellular level. This breakthrough will be a fundamental step towards a system for probing disease states of single cells and will open up new lines of scientific enquiry. Ultimately, Australia will benefit from a new technology and new diagnostic biomedical techniques. This is potentially an enabling technology for future customised medicine, where rapid biochip sensing becomes foreseeable.Read moreRead less
Towards a miniaturised on-chip terahertz biosensing system. Terahertz (or T-ray) radiation is highly sensitive to minute changes in the molecular structure of many substances. Furthermore most packing materials are transparent to this new form of radiation. This implies enormous potential for T-rays in a range of applications from quality control via non-invasive contact-less chemical fingerprinting through to safety and security applications. A detailed study of the molecular vibrations that gi ....Towards a miniaturised on-chip terahertz biosensing system. Terahertz (or T-ray) radiation is highly sensitive to minute changes in the molecular structure of many substances. Furthermore most packing materials are transparent to this new form of radiation. This implies enormous potential for T-rays in a range of applications from quality control via non-invasive contact-less chemical fingerprinting through to safety and security applications. A detailed study of the molecular vibrations that give rise to these fingerprints will help chemists and biologists to learn more about the underlying molecular binding forces, impacting on wide applications for safe non-invasive sensing in the medical, security, chemical and food industries.Read moreRead less
The virtual human knee. This project aims to investigate the Virtual Human Knee (VHK) which provides a baseline knowledge about knee mechanics in healthy individuals and a tool for studying knee mechanics in silico. The new knowledge can be used for identifying individuals most at risk for injury, developing solutions for preventing injury and for assessing knee reconstruction and implantation methods. As such, VHK will mitigate the burden of knee injury to Australia and worldwide by progressing ....The virtual human knee. This project aims to investigate the Virtual Human Knee (VHK) which provides a baseline knowledge about knee mechanics in healthy individuals and a tool for studying knee mechanics in silico. The new knowledge can be used for identifying individuals most at risk for injury, developing solutions for preventing injury and for assessing knee reconstruction and implantation methods. As such, VHK will mitigate the burden of knee injury to Australia and worldwide by progressing disciplines including anatomy, bio-mechanics, sport science, rehabilitation, surgery and medical devices.Read moreRead less
Elucidating the mechanics of facet dislocation and fracture in the neck. This project aims to address shortcomings in understanding the mechanics of neck trauma. Understanding the mechanical factors leading to cervical facet dislocation and fracture is necessary to improve injury prevention strategies and their assessment. This project expects to generate new knowledge in the area of spinal injury biomechanics, developing and using new experimental techniques. The project expects to provide know ....Elucidating the mechanics of facet dislocation and fracture in the neck. This project aims to address shortcomings in understanding the mechanics of neck trauma. Understanding the mechanical factors leading to cervical facet dislocation and fracture is necessary to improve injury prevention strategies and their assessment. This project expects to generate new knowledge in the area of spinal injury biomechanics, developing and using new experimental techniques. The project expects to provide knowledge necessary to improve crash test dummy design, associated injury criteria, and computational models, which provide the potential for improved injury prevention measures and methods for assessing existing and new technologies. The anticipated benefits of this project will be significant in reducing the personal and economic burden of spinal injuries.Read moreRead less
Towards early detection of upper airway obstruction in children: investigation of autonomic control. This project focuses on the investigation of new indicators for early detection of upper airway obstruction (UAO)-which is a common sleep disorder in children. Failure to treat UAO can result in serious adverse outcomes including failure to thrive, neurocognitive deficits, developmental delay, behavioural disorders and cardiovascular disease. Thus, early treatment of UAO will significantly improv ....Towards early detection of upper airway obstruction in children: investigation of autonomic control. This project focuses on the investigation of new indicators for early detection of upper airway obstruction (UAO)-which is a common sleep disorder in children. Failure to treat UAO can result in serious adverse outcomes including failure to thrive, neurocognitive deficits, developmental delay, behavioural disorders and cardiovascular disease. Thus, early treatment of UAO will significantly improve quality of life for the child. Direct benefits to community health via reduced costs for medical treatment will also be a key outcome. The establishment of new diagnostic indicators will form the basis of new tools for identifying child sleep disorders and contribute to advancing Australia's international leading position in health technology. Read moreRead less
Novel computational tools for the analysis of sympathetic nervous system activity. This project will investigate electrical signals from the heart, resulting in novel tools for the assessment of sympathetic nervous system activity. The findings will contribute to advancing Australia's international leading position in health technology and improve community health.
Novel RF Controlled Electromechanical Microvalve. The significance of the proposed microvalve is its potential use in exciting biomedical applications such as in drug delivery and fertility control. For human body implantation, it must be batteryless, wireless and be made of a biofriendly-polymer. We propose to meet all three criteria, based on novel use of surface acoustic waves (SAWs) as the actuation mechanism in a polymer material. Energy for actuation will be supplied by a radio frequency ( ....Novel RF Controlled Electromechanical Microvalve. The significance of the proposed microvalve is its potential use in exciting biomedical applications such as in drug delivery and fertility control. For human body implantation, it must be batteryless, wireless and be made of a biofriendly-polymer. We propose to meet all three criteria, based on novel use of surface acoustic waves (SAWs) as the actuation mechanism in a polymer material. Energy for actuation will be supplied by a radio frequency (RF) signal. We propose to model, design and demonstrate the device in laboratory conditions. This will enable development of application specific designs in future programs, such as ARC linkage.Read moreRead less
Advanced Nanostructured Biointerfaces for Cell Capture. The expected outcomes of this interdisciplinary project, which apply the most recent advances in nanotechnology and biophysics to cancer research, will enhance Australia's capacity in Frontier Technology and build strength in Nanobiotechnology. They will bring competitive advantages to the Australian biotechnology and biomedical community for further developments and applications in the multi-billion dollar field of biodiagnostics. These in ....Advanced Nanostructured Biointerfaces for Cell Capture. The expected outcomes of this interdisciplinary project, which apply the most recent advances in nanotechnology and biophysics to cancer research, will enhance Australia's capacity in Frontier Technology and build strength in Nanobiotechnology. They will bring competitive advantages to the Australian biotechnology and biomedical community for further developments and applications in the multi-billion dollar field of biodiagnostics. These innovative biodiagnostic strategies will potentially achieve a significant step in the direction of the once elusive goal of early detection and improved understanding of cancer.Read moreRead less
Wireless microvalve for biomedical applications. This program will investigate and perform an in-laboratory proof-of-concept demonstration of a polymer microvalve that can operate by a remote control radio signal. This will be a wireless microvalve that does not require a battery power source. This advance in the technology and scientific knowledge will have important applications for humankind ranging from drug delivery devices to through to valves in chips that can perform microfluidic chemica ....Wireless microvalve for biomedical applications. This program will investigate and perform an in-laboratory proof-of-concept demonstration of a polymer microvalve that can operate by a remote control radio signal. This will be a wireless microvalve that does not require a battery power source. This advance in the technology and scientific knowledge will have important applications for humankind ranging from drug delivery devices to through to valves in chips that can perform microfluidic chemical analysis. A far reaching long-range vision is its use in electronically reversible male fertility control. The community benefit in terms of novel biomedical devices and the resulting large international commercial market is significant.Read moreRead less
LIPID AND LIPOPROTEIN ADSORPTION AT BIOMATERIALS AND BIO-DIAGNOSTICS INTERFACES. This project aims to investigate molecular mechanisms involved in the formation of undesired biological deposits on synthetic materials and thereby help establish the scientific basis for the rational design of materials with improved compatibility with biological fluids and the engineering of a new generation of biomedical implant devices and bio-diagnostic devices. It is well known that proteins accumulate on synt ....LIPID AND LIPOPROTEIN ADSORPTION AT BIOMATERIALS AND BIO-DIAGNOSTICS INTERFACES. This project aims to investigate molecular mechanisms involved in the formation of undesired biological deposits on synthetic materials and thereby help establish the scientific basis for the rational design of materials with improved compatibility with biological fluids and the engineering of a new generation of biomedical implant devices and bio-diagnostic devices. It is well known that proteins accumulate on synthetic solid surfaces. This project proposes to investigate whether lipids and lipoproteins also play key roles in the initiation of biological adsorption processes. Combined with the study of the interfacial forces responsible, this information will guide the design of preventative strategies.Read moreRead less