The development of new scaffolds for bone repair comprising polycaprolactone and strontium-substituted bioactive glasses. The drive to develop bone grafts to fill major gaps in the skeleton, whilst circumventing the need to use permanent implants has led to a major research thrust towards developing biomaterials for bone-tissue engineering. The project will develop scaffolds with highly osteoconductive bioactive glasses in a polymer matrix for bone regeneration applications.
Understanding the biomechanical effects of fixation strategies to improve the technology of fracture management. Severe limb trauma is the leading cause of disability to people of wage-earning age, and 150,000 Australians are hospitalised with fractures each year. Beyond the direct costs to the nation of $1000 million annually, temporary and permanent loss of limb functionality have a significant impact on productivity and quality of life. The computational models developed in this project will ....Understanding the biomechanical effects of fixation strategies to improve the technology of fracture management. Severe limb trauma is the leading cause of disability to people of wage-earning age, and 150,000 Australians are hospitalised with fractures each year. Beyond the direct costs to the nation of $1000 million annually, temporary and permanent loss of limb functionality have a significant impact on productivity and quality of life. The computational models developed in this project will address critical gaps in the knowledge of fracture healing and the influence of different fixation devices. The project outcomes will provide a basis for tailoring fixation technologies for more reliable outcomes and minimised risk of non-union and complications, and thereby reducing physical impairment and the socio-economic burden of fractures.Read moreRead less
Direct measurement of the kinetics of trans-femoral amputee gait during activities of daily living. This project involves the use of a novel technique to accurately measure the loads placed upon the lower limbs of above-knee amputees. Included in the subject group will be a number of amputees fitted with an artificial leg fitted directly into the bone. The ability to monitor a range of activities is possible by the use of a wireless telemetry system. The outcomes of this work will benefit ampute ....Direct measurement of the kinetics of trans-femoral amputee gait during activities of daily living. This project involves the use of a novel technique to accurately measure the loads placed upon the lower limbs of above-knee amputees. Included in the subject group will be a number of amputees fitted with an artificial leg fitted directly into the bone. The ability to monitor a range of activities is possible by the use of a wireless telemetry system. The outcomes of this work will benefit amputees around the world, as well as clinicians and companies who are dedicated to developing significant improvements in the functional abilities of subjects who have suffered amputation.Read moreRead less
Innovative approach to design a new osseointegrated implant for transfemoral amputees with better resistance to fractures. Transfemoral amputees fitted with an osseointegrated implant are experiencing numerous valuable benefits compare to their previous method conventional attachment. However, 40% of them present an early loosening of the implant or ruptures of the abutment. These problems are related to the load regime acting on the fixation system during post-operative rehabilitation and daily ....Innovative approach to design a new osseointegrated implant for transfemoral amputees with better resistance to fractures. Transfemoral amputees fitted with an osseointegrated implant are experiencing numerous valuable benefits compare to their previous method conventional attachment. However, 40% of them present an early loosening of the implant or ruptures of the abutment. These problems are related to the load regime acting on the fixation system during post-operative rehabilitation and daily life activities. In this project, the direct measurement of the actual load applied on the abutment during:
· the load bearing exercises is essential to refine the post- operative rehabilitation program.
· every-day activities is crucial to improve the design and
testing of the implants and abutments.Read moreRead less
A novel electrospraying technology platform for controlled and targeted growth factor delivery. This project will develop a new growth factor delivery strategy to stimulate bone regeneration. The project will utilise the technique of electrospraying to create small dissolving polymer microspheres containing bone-relevant growth factors, which are released gradually as the polymer degrades after implantation into a bone defect site to promote healing.
Mobility of water in cartilage as a probe of molecular structure and function. Clinical diagnosis of early-stage osteoarthritis is difficult, and most patients are not diagnosed until a substantial degradation of cartilage has occurred as a result of the disease. This research will study the interaction between different components of articular cartilage and investigate, how this interaction can be exploited for the development of reliable and non-invasive techniques of cartilage imaging. Mobili ....Mobility of water in cartilage as a probe of molecular structure and function. Clinical diagnosis of early-stage osteoarthritis is difficult, and most patients are not diagnosed until a substantial degradation of cartilage has occurred as a result of the disease. This research will study the interaction between different components of articular cartilage and investigate, how this interaction can be exploited for the development of reliable and non-invasive techniques of cartilage imaging. Mobility of water molecules is a potent indicator of the microscopic structure of the cartilage scaffold. We will use this fundamental biophysical relationship to measure the internal architecture of collagen fibres; observe the changes effected by mechanical load; and distinguish between healthy and osteoarthritic cartilage.
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Hypoxia-mimicking bio-scaffold for skeleton regeneration. The project is to develop bioactive bone grafts to improve bone repair and shorten the recovery time of patients with fractures, degenerative joint diseases, and bone cancer and bone deformities.
Bone tissue engineering using innovative tubular dual-layered nanofiber meshes. Lifetime risks for long-bone fractures in Caucasians over the age of 50 are 17 per cent for women and 6 per cent for men. A clear therapeutic need exists to address the ever-increasing problems of diminished productivity and reduced quality of life associated with bone disorders as the population ages. To address this challenge, the project’s multidisciplinary, international team will develop technologies to heal tib ....Bone tissue engineering using innovative tubular dual-layered nanofiber meshes. Lifetime risks for long-bone fractures in Caucasians over the age of 50 are 17 per cent for women and 6 per cent for men. A clear therapeutic need exists to address the ever-increasing problems of diminished productivity and reduced quality of life associated with bone disorders as the population ages. To address this challenge, the project’s multidisciplinary, international team will develop technologies to heal tibial defects. Furthermore, it will establish Australia's prominence in the tissue engineering field, training the next generation of young scientists and engineers. This technology will be of interest to numerous research groups and companies worldwide and will foster international collaboration, placing Australia at the forefront of this emerging field.Read moreRead less