Clean technologies for the synthesis and purification of a biohybrid and biodegradable polymer. The project aims to transform an Australian industry in the forefront of the global market for manufacturing biodegradable polymers and boost export earnings derived from CO2 based biohybrid polymers. The project will develop cost-effective and clean methods for processing CO2 based polymers and demonstrate its potential for packaging and biomedical applications.
Engineering of cartilage-based biomaterials under dynamic culture conditions. This work contributes to the development of advanced technologies in the area of biomaterials. The cartilage biomaterials generated in this work will lead to new medical applications in tissue reconstruction and replacement, which is of direct benefit to society by improving the methods used to treat joint disease and injury. As there is a significant commercial market for tissue-engineered cartilage products, this res ....Engineering of cartilage-based biomaterials under dynamic culture conditions. This work contributes to the development of advanced technologies in the area of biomaterials. The cartilage biomaterials generated in this work will lead to new medical applications in tissue reconstruction and replacement, which is of direct benefit to society by improving the methods used to treat joint disease and injury. As there is a significant commercial market for tissue-engineered cartilage products, this research also has implications for enhancing the scope and profitability of the Australian biotechnology industry. The project will be a vehicle for research training in a broad range of interdisciplinary areas. Students involved in the work will be equipped with a versatile and valuable combination of skills.Read moreRead less
Application of bioreactors for culture of differentiated cells and solid-phase tissues. The aim of this project is to develop methods for producing three-dimensional human cartilage outside of the body. Tissue-engineered cartilage has a range of applications, including in toxicity testing, for production of therapeutics, and as surgical transplant devices. Bioreactors will be used to culture cartilage under controlled conditions for development of living tissues with properties as close as possi ....Application of bioreactors for culture of differentiated cells and solid-phase tissues. The aim of this project is to develop methods for producing three-dimensional human cartilage outside of the body. Tissue-engineered cartilage has a range of applications, including in toxicity testing, for production of therapeutics, and as surgical transplant devices. Bioreactors will be used to culture cartilage under controlled conditions for development of living tissues with properties as close as possible to those of native articular cartilage. Novel culture strategies will be used to enhance the availability of growth factors and provide adequate oxygen and nutrient exchange. These techniques have the potential to yield significant improvements in the quality of engineered cartilage.Read moreRead less