Synthesis and Characterization of Novel Hybrid star polymers grown from carbohydrate clusters. The aim of the project is to make complex polymer architectures based on stars grown from sugar clusters. The star molecules are expected to have unique properties for transporting guest molecules in drug delivery systems. The outcome will be the development of totally biodegradable, non-toxic cluster/star structures capable of complexing to drugs. This is the first attempt to utilise these clusters ....Synthesis and Characterization of Novel Hybrid star polymers grown from carbohydrate clusters. The aim of the project is to make complex polymer architectures based on stars grown from sugar clusters. The star molecules are expected to have unique properties for transporting guest molecules in drug delivery systems. The outcome will be the development of totally biodegradable, non-toxic cluster/star structures capable of complexing to drugs. This is the first attempt to utilise these clusters, with sugar-based vinyl monomers for star synthesis.Read moreRead less
Nanotechnology-Enhanced Vaccines: New inulin bioconjugates to defeat global pandemic threats. Inulin-based adjuvants have the potential to revolutionise the vaccine arena; man's critical first line of defence against infectious disease. Any breakthrough in developing completely safe new adjuvants, will therefore be of major global significance, and will play a vital role in the maintenance of global health for decades. New and completely safe vaccine adjuvants are a vital step in the developmen ....Nanotechnology-Enhanced Vaccines: New inulin bioconjugates to defeat global pandemic threats. Inulin-based adjuvants have the potential to revolutionise the vaccine arena; man's critical first line of defence against infectious disease. Any breakthrough in developing completely safe new adjuvants, will therefore be of major global significance, and will play a vital role in the maintenance of global health for decades. New and completely safe vaccine adjuvants are a vital step in the development of improved vaccine technology in the 21st century. This project addresses two National Research Priorities, Namely Promoting and Maintaining Good Health and Safeguarding Australia. On commercialization, this will then be an important Australian contribution towards protecting the nation against any future pandemic outbreaks.Read moreRead less
Novel Hydrogels for Bioseparations in Clinical Applications. The project aims to design and synthesise new highly swollen hydrophilic membranes for use in biological separation processes and purifications such as the removal of viruses from blood. Typical membrane problems like membrane fouling or low flux should be minimized by a narrow pore size distribution. The regular nano-patterning should be obtained by molecular impriniting technique. Novel thermoresponsive polymers, which will be polyme ....Novel Hydrogels for Bioseparations in Clinical Applications. The project aims to design and synthesise new highly swollen hydrophilic membranes for use in biological separation processes and purifications such as the removal of viruses from blood. Typical membrane problems like membrane fouling or low flux should be minimized by a narrow pore size distribution. The regular nano-patterning should be obtained by molecular impriniting technique. Novel thermoresponsive polymers, which will be polymerized via controlled free radical polymerization techniques, will be used as biocompatible membrane material.Read moreRead less
Next generation polymer nanostructures. The project will significantly advance the knowledge base of polymer science and related fields through the preparation of previously unavailable novel and well-defined nanostructures. These structures will be suitable for use in drug and gene delivery and high strength coatings providing Australian products with advanced features and capabilities, significantly improving product performance. A direct application of this project will be to develop the stru ....Next generation polymer nanostructures. The project will significantly advance the knowledge base of polymer science and related fields through the preparation of previously unavailable novel and well-defined nanostructures. These structures will be suitable for use in drug and gene delivery and high strength coatings providing Australian products with advanced features and capabilities, significantly improving product performance. A direct application of this project will be to develop the structures for use within a synthetic GAS vaccine. The knowledge obtained through this application will advance the development of synthetic vaccines by providing an understanding of how these structures function in the body. Read moreRead less
Interfacial Studies of Nanoparticulate Dendrimers for Improved BioPharmaceutical Application. Dendrimers are a novel class of nanoparticles with exciting potential as pharmaceuticals for the prevention of major disease states, e.g. viral and cancer. A colloid and interfacial chemistry approach will be employed to develop an understanding of the mechanisms for the solution to cell transport processes and for optimisation of formulation strategies for delivery vehicles. Significant advances in t ....Interfacial Studies of Nanoparticulate Dendrimers for Improved BioPharmaceutical Application. Dendrimers are a novel class of nanoparticles with exciting potential as pharmaceuticals for the prevention of major disease states, e.g. viral and cancer. A colloid and interfacial chemistry approach will be employed to develop an understanding of the mechanisms for the solution to cell transport processes and for optimisation of formulation strategies for delivery vehicles. Significant advances in the development of novel pharmaceutical products will result, with significant social and economic benefits nationally and internationally.Read moreRead less
Polymer Stabilized and Bio-functionalised Metal Nanoparticles As Potential Vectors For Drug Therapies. The project aims to make novel nanoparticles (extremely small, nano means one billionth of a metre) that carry medicines to very specific sites of the body and then release them. This would result in much improved outcomes for conventional chemotherapy but may also allow new gene therapies where diseases can be silenced at their source.
Controlled Grafting of Polymer Surfaces for Biotechnology Applications. The aim of this project is to utilise novel polymerization methods to create highly functional polymer surfaces. We anticipate that the resultant structures will be useful for a number of applications including solid-phase organic synthesis and proteomics.
Theoretical studies of molecular mechanisms of abnormal protein aggregation. Many proteins undergo conformational change and association as part of their physiological behavior. However, some proteins share a tendency to abnormal aggregation and form amyloid fibrils leading to disorders such as Alzheimer's and variant Creutzfeldt-Jacob diseases. Insulin, one such protein, has a high propensity to aggregate and form fibrils creating difficulties in preparation, storage and application. Using adva ....Theoretical studies of molecular mechanisms of abnormal protein aggregation. Many proteins undergo conformational change and association as part of their physiological behavior. However, some proteins share a tendency to abnormal aggregation and form amyloid fibrils leading to disorders such as Alzheimer's and variant Creutzfeldt-Jacob diseases. Insulin, one such protein, has a high propensity to aggregate and form fibrils creating difficulties in preparation, storage and application. Using advanced theoretical modelling techniques we will gain insight into the molecular mechanism of fibrillation by investigating the formation of insulin aggregates. An improved understanding of the essential mechanism of protein aggregation will allow the rational design of new drugs.Read moreRead less