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Probing and Developing Hypoxia-Selective Anti-Cancer Agents. The development of compounds that are effective in the treatment of cancer and are less toxic than existing drugs depends on the selective targeting of tumours. Solid tumours have poorly oxygenated regions which represent unique chemical environments that can be targeted using selectively activated compounds. In this project we will develop the first in situ methods for monitoring the activation state in solid tumours to establish the ....Probing and Developing Hypoxia-Selective Anti-Cancer Agents. The development of compounds that are effective in the treatment of cancer and are less toxic than existing drugs depends on the selective targeting of tumours. Solid tumours have poorly oxygenated regions which represent unique chemical environments that can be targeted using selectively activated compounds. In this project we will develop the first in situ methods for monitoring the activation state in solid tumours to establish the selectivity of activation. These results will be used to tune the properties of two novel classes of selectively activated compounds and thereby develop agents able to treat the most problematic of cancers.Read moreRead less
Nanoprobe and Microprobe Structural and Spectroscopic Studies in Biomedical Research. Breakthrough microprobe and nanoprobe technologies, involving X-ray, visible and infrared light can focus into different components of mammalian cells in order to interrogate the biochemistry that is occurring therein. Each of the different wavelengths of light provides complementary biochemical information that enables multi-layered information on changes in cells that occur as a function of drug treatments a ....Nanoprobe and Microprobe Structural and Spectroscopic Studies in Biomedical Research. Breakthrough microprobe and nanoprobe technologies, involving X-ray, visible and infrared light can focus into different components of mammalian cells in order to interrogate the biochemistry that is occurring therein. Each of the different wavelengths of light provides complementary biochemical information that enables multi-layered information on changes in cells that occur as a function of drug treatments and disease processes. This will provide unprecedented information as to where drugs go and how they are transformed inside cells that, in turn, may revolutionalise the way in which new drugs are designed that have higher specificity and lower side effects.Read moreRead less
Oral Insulin Delivery facilitated by Enteric Coating using Dense Gas Technologies. Insulin dependant diabetes is a rapidly growing disease. The current method for insulin delivery to the patient is by injection, which is inconvenient. Oral delivery of insulin is a more acceptable method. It is proposed to develop a dense gas technique to coat insulin with a pH sensitive polymer to protect it from the acidic environment of the stomach. Insulin can then be released at the high pH of the intestin ....Oral Insulin Delivery facilitated by Enteric Coating using Dense Gas Technologies. Insulin dependant diabetes is a rapidly growing disease. The current method for insulin delivery to the patient is by injection, which is inconvenient. Oral delivery of insulin is a more acceptable method. It is proposed to develop a dense gas technique to coat insulin with a pH sensitive polymer to protect it from the acidic environment of the stomach. Insulin can then be released at the high pH of the intestine when the polymer is dissolved. Particle size control is feasible by dense gas processes by manipulating operating parameters. Advantages include low residual solvent and manufacture at ambient temperatures.Read moreRead less
Generation and Exploitation of Fermentation Products in the Chemical Synthesis of Biologically Active Compounds with Therapeutic Potential. Dramatic developments in biotechnology have provided access to genetically engineered micro-organisms capable of effecting unusual transformations so as to form novel compounds of great value in chemical synthesis. This project will combine the powers of biotechnology with those of chemical synthesis to produce compounds that have therapeutic potential in th ....Generation and Exploitation of Fermentation Products in the Chemical Synthesis of Biologically Active Compounds with Therapeutic Potential. Dramatic developments in biotechnology have provided access to genetically engineered micro-organisms capable of effecting unusual transformations so as to form novel compounds of great value in chemical synthesis. This project will combine the powers of biotechnology with those of chemical synthesis to produce compounds that have therapeutic potential in the treatment of Alzheimer's disease, cancer and viral infections.Read moreRead less
Innovative green technology for bio-particle engineering. Approximately 40% of new pharmaceuticals are poorly soluble in bodily fluids. In many cases this leads to poor bioavailability, and consequent undesirable side effects as a result of high compensating dosages and generally poor patient compliance. These issues will be addressed by developing a green technology for the re-engineering of pharmaceuticals with the objective of increasing bioavilability. The research programme falls within th ....Innovative green technology for bio-particle engineering. Approximately 40% of new pharmaceuticals are poorly soluble in bodily fluids. In many cases this leads to poor bioavailability, and consequent undesirable side effects as a result of high compensating dosages and generally poor patient compliance. These issues will be addressed by developing a green technology for the re-engineering of pharmaceuticals with the objective of increasing bioavilability. The research programme falls within the Designated Research Priority of Frontier Technologies for Building and Transforming Australian Industries. Read moreRead less
Chemical Synthesis of Bioactive Metabolites and Analogues from Marine Sources and Myxobacteria. This project could result in the production of a new type of anticancer compound. The proposal will study the synthesis of novel natural product analogues that could possess superior biological activities to the natural compounds. In addition, new chemistry may be developed which could be utilised to synthesise a number of related molecules.
Synthesis of Myxobacteria Metabolites and Analogues. The proposal will study the synthesis of novel natural product analogues that could possess superior biological activities to the natural compounds. In addition, new chemistry may be developed which could be utilised to synthesise a number of bioactive molecules from myxobacteria.
Granulation of hydrophobic powders: design and control of granule structure. This unique project will further enhance Australia's established world-class excellence in granulation research, and will assist in setting up a new school of excellence in granulation at Monash University. The innovative use of normally problematic material properties to produce 'designer granules' is a clear example of a 'Frontier Technologies' that can be used to develop 'Advanced Materials' for the next generation o ....Granulation of hydrophobic powders: design and control of granule structure. This unique project will further enhance Australia's established world-class excellence in granulation research, and will assist in setting up a new school of excellence in granulation at Monash University. The innovative use of normally problematic material properties to produce 'designer granules' is a clear example of a 'Frontier Technologies' that can be used to develop 'Advanced Materials' for the next generation of agricultural, food and pharmaceutical industries, particularly for delivery of hydrophobic drugs. The innovative ideas presented in this proposal are expected to provide multiple opportunities for collaboration with national and international research institutions and pharmaceutical companies. Read moreRead less
New Chemistry for the Total Synthesis of Pyrone Containing Marine Natural Products. The project will produce a range of compounds in the laboratory that have been identified from marine organisms. These compounds, which have potential as new medicines, are produced in minute quantities by the organisms, and synthesis in the laboratory is a way to produce significant quantities for biological evaluation. The new methods developed for the preparation of complex polypropionates compounds, can be a ....New Chemistry for the Total Synthesis of Pyrone Containing Marine Natural Products. The project will produce a range of compounds in the laboratory that have been identified from marine organisms. These compounds, which have potential as new medicines, are produced in minute quantities by the organisms, and synthesis in the laboratory is a way to produce significant quantities for biological evaluation. The new methods developed for the preparation of complex polypropionates compounds, can be applied to the preparation of known medicinally active compounds. The grant will allow a PhD student and post doctoral worker to receive first-rate training in organic and medicinal chemistry, which are areas in great demand to support the increasing number of start-up biotechnology and niche pharmaceutical companies.Read moreRead less
New vistas in porphyrin chemistry via metal-catalyzed couplings with hydrazine derivatives. This project will address basic scientific questions and develop new substances for use in molecular electronics and cancer therapy. We will make and study entirely new molecules derived from porphyrins, which in Nature have vital roles in photosynthesis, oxygen transport and enzyme catalysis. This breakthrough research will reveal knowledge vital to the advancement of fundamental chemical science and als ....New vistas in porphyrin chemistry via metal-catalyzed couplings with hydrazine derivatives. This project will address basic scientific questions and develop new substances for use in molecular electronics and cancer therapy. We will make and study entirely new molecules derived from porphyrins, which in Nature have vital roles in photosynthesis, oxygen transport and enzyme catalysis. This breakthrough research will reveal knowledge vital to the advancement of fundamental chemical science and also offer excellent training in cutting edge research for young Australian scientists. In addition, porphyrin-like substances are used in cancer diagnosis and treatment and have properties essential for the next generation of nanoelectronic devices, and this project is aimed at these eventual outcomes.Read moreRead less