Thermo-electro-chemo-mechanical properties of biological systems. The proposal is aimed at developing a new theoretical framework for piezoelectric biological materials and structures, through theoretical analysis, computation and numerical simulations, as well as experimental investigations, to produce high-reliability, high-performance hydrogel components and smart soft tissue structures. It is envisaged that successful outcomes of this program will give the Australian biological industry a te ....Thermo-electro-chemo-mechanical properties of biological systems. The proposal is aimed at developing a new theoretical framework for piezoelectric biological materials and structures, through theoretical analysis, computation and numerical simulations, as well as experimental investigations, to produce high-reliability, high-performance hydrogel components and smart soft tissue structures. It is envisaged that successful outcomes of this program will give the Australian biological industry a technology edge over their competitors and provide easy-to-use guidelines for the design of smart biological systems.Read moreRead less
Improving orthopaedic/dental devices by surface chemical modification. The estimated world market for the orthopaedic implants is expected to be US$125 billion by 2010. Australia imports most of it's orthopaedic implants with an estimated cost in excess of AUD300 million by 2010. The current rate of prosthetic failures in orthopaedic patients is unacceptably high. The project aims to develop new implants that integrate better into bone, thus reducing the rate of revision arthroplasty. This would ....Improving orthopaedic/dental devices by surface chemical modification. The estimated world market for the orthopaedic implants is expected to be US$125 billion by 2010. Australia imports most of it's orthopaedic implants with an estimated cost in excess of AUD300 million by 2010. The current rate of prosthetic failures in orthopaedic patients is unacceptably high. The project aims to develop new implants that integrate better into bone, thus reducing the rate of revision arthroplasty. This would lead to a significant reduction in the cost of health care in our aging population and improve the quality of life for prosthetic recipients. Knowledge gained will facilitate the optimization of orthopaedic and implant dentistry, promoting the technology transfer from academia to the relevant medical device industry.Read moreRead less
Computer simulation techniques to reduce the incidence of femoral fracture after hip replacement surgery. Australia's ageing population is driving an increase of 5% to 10% a year in the number of primary total hip replacements. We will move beyond conventional surgical techniques, to deliver the science for an accurate, reliable computer-based system that is significantly more accurate and reliable. Optimising implant selection criteria to better match patients' activity levels and bone physiolo ....Computer simulation techniques to reduce the incidence of femoral fracture after hip replacement surgery. Australia's ageing population is driving an increase of 5% to 10% a year in the number of primary total hip replacements. We will move beyond conventional surgical techniques, to deliver the science for an accurate, reliable computer-based system that is significantly more accurate and reliable. Optimising implant selection criteria to better match patients' activity levels and bone physiology and minimise revision rates; this has major implications for the national health budget and patients' quality of life. Our advances will allow the implementation of improved surgical techniques that minimise the risk of implant related bone failure.Read moreRead less