Metal-Based Anti-inflammatory Drugs with High Efficacy and Low Side-Effects. Non-steroidal anti-inflammatory drugs (NSAIDs) have widespread human and veterinary applications for the treatment of arthritis and other inflammatory diseases, but their utility is limited by often severe gastrointestinal, renal and cardiac side-effects. The recently heralded COX-2 inhibitors have not lived up to their expectations in terms of efficacy and side-effects, therefore, there is a need to develop new potent ....Metal-Based Anti-inflammatory Drugs with High Efficacy and Low Side-Effects. Non-steroidal anti-inflammatory drugs (NSAIDs) have widespread human and veterinary applications for the treatment of arthritis and other inflammatory diseases, but their utility is limited by often severe gastrointestinal, renal and cardiac side-effects. The recently heralded COX-2 inhibitors have not lived up to their expectations in terms of efficacy and side-effects, therefore, there is a need to develop new potent, but safer, NSAIDs. This project is aimed at using the results from new lead compounds to design NSAIDs with much greater efficacy and much less side effects than those currently available.Read moreRead less
Synthesis of Novel Biomaterials for Drug delivery. A new UV radiation polymerisation technique utilising charge-transfer complexes is adopted for synthesising novel hydrogels, a group of biomaterials for drug delivery. This work is significant as charge-transfer complexes, pertinent to the formation of hydrogels, form copolymers within the hydrogel matrices. This eliminates using costly, yet undesirable photo-initiators (PI), thus rendering the hydrogels as cleaner (PI-free) and more economical ....Synthesis of Novel Biomaterials for Drug delivery. A new UV radiation polymerisation technique utilising charge-transfer complexes is adopted for synthesising novel hydrogels, a group of biomaterials for drug delivery. This work is significant as charge-transfer complexes, pertinent to the formation of hydrogels, form copolymers within the hydrogel matrices. This eliminates using costly, yet undesirable photo-initiators (PI), thus rendering the hydrogels as cleaner (PI-free) and more economical in production; the products present themselves as ideal treatment methods in the controlled-release of drugs, specifically targeting localised pathological sites of interest. The research findings will be invaluable to medical practices, leading to the creation of new industries in Australia.
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The Design of New Integrase Inhibitors Targeting HIV-1. There is still no cure in sight for the worldwide HIV pandemic and the worsening viral resistance problem creates a need to find new and novel compounds for therapeutic use. This project aims to design and synthesize new anti-HIV drugs by targeting two separate enzymes within the HIV life-cycle. This 'dual-action' approach of designing a single molecular scaffold to target separate enzymes would enable a synergistic effect while minimizing ....The Design of New Integrase Inhibitors Targeting HIV-1. There is still no cure in sight for the worldwide HIV pandemic and the worsening viral resistance problem creates a need to find new and novel compounds for therapeutic use. This project aims to design and synthesize new anti-HIV drugs by targeting two separate enzymes within the HIV life-cycle. This 'dual-action' approach of designing a single molecular scaffold to target separate enzymes would enable a synergistic effect while minimizing development costs. The expected outcomes from this medicinal chemistry project include the discovery of new compounds with the potential for further development as therapeutic agents against HIV.Read moreRead less
The Design and Development of the Next Generation Anti-HIV Drugs. This medicinal chemistry project will develop new computer-aided modelling techniques for drug design and development and will then apply them to the design of new therapeutics for the treatment of HIV-1/AIDS. Once developed, these new techniques can also be applied to other disease targets including various cancers, where specific proteins have been identified as causative. This research will also contribute to the education of y ....The Design and Development of the Next Generation Anti-HIV Drugs. This medicinal chemistry project will develop new computer-aided modelling techniques for drug design and development and will then apply them to the design of new therapeutics for the treatment of HIV-1/AIDS. Once developed, these new techniques can also be applied to other disease targets including various cancers, where specific proteins have been identified as causative. This research will also contribute to the education of young scientists, training them in cutting-edge research skills.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
Rational Design of Pegylated Dendrimer Nanostructures for Site Specific Drug Delivery. This project will provide technological advances with significant benefits in terms of improved drug treatment, and therefore health outcomes for Australia. The project builds on areas of research strength in Australia (nanotechnology and biotechnology/biomaterials) and will add considerably to the expanding Australian expertise-base in dendrimer technology (in which it is a world leader). The interdisciplinar ....Rational Design of Pegylated Dendrimer Nanostructures for Site Specific Drug Delivery. This project will provide technological advances with significant benefits in terms of improved drug treatment, and therefore health outcomes for Australia. The project builds on areas of research strength in Australia (nanotechnology and biotechnology/biomaterials) and will add considerably to the expanding Australian expertise-base in dendrimer technology (in which it is a world leader). The interdisciplinary nature of this project will also result in a unique training program for the researchers included in this grant. Such experience is in great demand, particularly in Australia where the burgeoning start-up discovery industry is critically short of personnel with skills in drug delivery.Read moreRead less
Drug Delivery Devices : Hydrogels manufactured utilising Dense Gas Technologies. Many drugs are rapidly eliminated from the human body, and would benefit from being released over a long period of time. In this study, formulations to deliver drugs will be developed, using hydrogels: highly cross-linked, water saturated polymers. The polymers to be investigated are based on ingredients suitable for ingestion. Hydrogels are in common use as external therapeutic devices, such as contact lenses or wo ....Drug Delivery Devices : Hydrogels manufactured utilising Dense Gas Technologies. Many drugs are rapidly eliminated from the human body, and would benefit from being released over a long period of time. In this study, formulations to deliver drugs will be developed, using hydrogels: highly cross-linked, water saturated polymers. The polymers to be investigated are based on ingredients suitable for ingestion. Hydrogels are in common use as external therapeutic devices, such as contact lenses or wound dressings. However, hydrogels are not commonly in use as ingested drug delivery devices due to problems with the existing technologies, such as toxicity of ingredients. These problems will be addressed in this study.Read moreRead less
Mechanisms of enhancement of absorption of poorly water-soluble drugs from the gastrointestinal tract mediated by lipids, surfactants and polymers. This project will provide technological advances with significant benefits in terms of improved drug treatment, and therefore health outcomes for Australia. The projects builds on internationally recognised research strengths at Monash University in lipid-based drug delivery, and connects Monash and Australia with applied research in the multination ....Mechanisms of enhancement of absorption of poorly water-soluble drugs from the gastrointestinal tract mediated by lipids, surfactants and polymers. This project will provide technological advances with significant benefits in terms of improved drug treatment, and therefore health outcomes for Australia. The projects builds on internationally recognised research strengths at Monash University in lipid-based drug delivery, and connects Monash and Australia with applied research in the multinational pharmaceutical industry. This will enhance the standing of Australian biomedical research in the pharmaceutical world and directly facilitate a partnership between Monash and Capsugel in commercialisation of the outcomes of the project. The project will also train Australian scientists in skills that are in great demand in the developing pharmaceutical industry in Australia.Read moreRead less