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New methods to improve regional isotope therapy of liver tumours in cancer patients. The most common cause of death in cancer patients is secondary tumours in vital organs. Successful treatment of liver tumours with regional isotope therapy now offers improved survival rates. This project will research novel radiolabelled nanoparticles and advanced computer imaging algorithms to improve regional isotope therapy of liver tumours. It will provide better methods of objective assessment and manageme ....New methods to improve regional isotope therapy of liver tumours in cancer patients. The most common cause of death in cancer patients is secondary tumours in vital organs. Successful treatment of liver tumours with regional isotope therapy now offers improved survival rates. This project will research novel radiolabelled nanoparticles and advanced computer imaging algorithms to improve regional isotope therapy of liver tumours. It will provide better methods of objective assessment and management that can reduce risk and improve patient survival.Read moreRead less
Specific gene inhibition through functional genomics and high through-put small molecule screening. This project will utilise functional genomic technologies in an attempt to identify genes in childhood neuroblastoma as potential candidates for the future development of molecular-targeted gene therapy. By screening large 'libraries' of chemical compounds, we aim to identify compounds with the ability to specifically inhibit these gene targets. This project will therefore define novel molecular t ....Specific gene inhibition through functional genomics and high through-put small molecule screening. This project will utilise functional genomic technologies in an attempt to identify genes in childhood neuroblastoma as potential candidates for the future development of molecular-targeted gene therapy. By screening large 'libraries' of chemical compounds, we aim to identify compounds with the ability to specifically inhibit these gene targets. This project will therefore define novel molecular targets and possibly facilitate the future development of new therapeutic approaches to treating neuroblastoma. In addition, the project will develop know-how that can be utilised by both the industry partner and the broader research community and will introduce to Australian science novel techniques and skills. Read moreRead less