Advanced micro-architecture and nanotopography for enhanced tissue growth in scaffolds. Tissue engineering scaffolds offer an urgently needed synthetic biomaterials solution to overcome disease transmission from donor transplants. This work will combine biomaterial chemistry and designed surface topography to trigger bone formation within a scaffold for the first time in the world. Collaboration with national research leaders on stem cell and animal testing of the new scaffolds will provide the ....Advanced micro-architecture and nanotopography for enhanced tissue growth in scaffolds. Tissue engineering scaffolds offer an urgently needed synthetic biomaterials solution to overcome disease transmission from donor transplants. This work will combine biomaterial chemistry and designed surface topography to trigger bone formation within a scaffold for the first time in the world. Collaboration with national research leaders on stem cell and animal testing of the new scaffolds will provide the necessary interdisciplinary approach to generate a new product for patients in need of bone regeneration. Australia will benefit from the contribution to medical science, the development of a new device for rapid prototyping tissue engineering scaffolds, retain biomaterials research expertise, and generate new biomedical products.Read moreRead less
Advanced nanoparticles as biocompatible antioxidant agents with targeting functionality. This proposal addresses the core issue of designing nanoparticles capable of delivering antioxidant properties in a biological environment. The major benefits to Australia are two-fold: first will be in the improved health outcomes by providing materials that are better suited to targeted therapeutic delivery, thereby improving the quality of life and reducing the need for further surgical intervention; the ....Advanced nanoparticles as biocompatible antioxidant agents with targeting functionality. This proposal addresses the core issue of designing nanoparticles capable of delivering antioxidant properties in a biological environment. The major benefits to Australia are two-fold: first will be in the improved health outcomes by providing materials that are better suited to targeted therapeutic delivery, thereby improving the quality of life and reducing the need for further surgical intervention; the second is in providing greater knowledge about nanoparticle interactions with the biological environment. This project will assist in the training of researchers in this field which will in turn provide economic growth through the development of Australian industries.Read moreRead less
Using nanostructured biomaterials and stem cells to repair spinal cord injuries. There is currently no effective cure for spinal cord injuries and the consequences to the patient are devastating. Spinal cord injuries affects limb, bowel, bladder and sexual function, and many people with these injuries strugle to maintain their independence. Because people can live for many years after spinal cord damage, the financial and social costs are immense, as many are dependent on the help of others for ....Using nanostructured biomaterials and stem cells to repair spinal cord injuries. There is currently no effective cure for spinal cord injuries and the consequences to the patient are devastating. Spinal cord injuries affects limb, bowel, bladder and sexual function, and many people with these injuries strugle to maintain their independence. Because people can live for many years after spinal cord damage, the financial and social costs are immense, as many are dependent on the help of others for their survival. This proposal tackles this urgent problem by applying advanced nanostructured materials with stem cells, to assist the body in the repair of the spinal cord following injury. Read moreRead less
Nerve regeneration using light responsive hydrogels and stem cells. Diseases of the brain and mind are already the single largest burden of disease in the western world, being greater than cardiac or malignant disease. With Australia's ageing demographic, diseases of the brain and mind will continue to outstrip all other medical causes of loss of productive working life and quality of life. This proposal will confront this serious issue using nanostructured intelligent materials, moving towards ....Nerve regeneration using light responsive hydrogels and stem cells. Diseases of the brain and mind are already the single largest burden of disease in the western world, being greater than cardiac or malignant disease. With Australia's ageing demographic, diseases of the brain and mind will continue to outstrip all other medical causes of loss of productive working life and quality of life. This proposal will confront this serious issue using nanostructured intelligent materials, moving towards the realization of effective stem cell therapies.Read moreRead less
The Scale-up and Evaluation of a Novel Dense Gas Technology Platform for the Production of Particles for Aerosol Drug Delivery. This project provides a unique opportunity to develop an Australian-invented technology in particle engineering, enabling it to enter the international pharmaceutical market. This will enhance the growth of Australia's pharmaceutical research and development, and benefit the Australian pharmaceutical industry. The outcome will also contribute to improvements in the heal ....The Scale-up and Evaluation of a Novel Dense Gas Technology Platform for the Production of Particles for Aerosol Drug Delivery. This project provides a unique opportunity to develop an Australian-invented technology in particle engineering, enabling it to enter the international pharmaceutical market. This will enhance the growth of Australia's pharmaceutical research and development, and benefit the Australian pharmaceutical industry. The outcome will also contribute to improvements in the health and well-being of Australians. The research falls within the Designated National Research Priority of Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less