Brønsted Acid Activated Chiral Brønsted Bases: Catalysts for Enantioselective Photochemical and Aminyl Radical Reactions. In coming years the Australian pharmaceutical industry will face unprecedented challenges regarding the generation of wealth in an environmentally sustainable fashion. This proposal aims to address these issues through the development of a range of organocatalytic methods, which will provide access to valuable materials in a sustainable manner. While the new technologies deri ....Brønsted Acid Activated Chiral Brønsted Bases: Catalysts for Enantioselective Photochemical and Aminyl Radical Reactions. In coming years the Australian pharmaceutical industry will face unprecedented challenges regarding the generation of wealth in an environmentally sustainable fashion. This proposal aims to address these issues through the development of a range of organocatalytic methods, which will provide access to valuable materials in a sustainable manner. While the new technologies derived from these studies will deliver general benefits in the area of chemical synthesis, more localised benefits will be achieved through the synthesis of the biologically significant Grandisine natural products, which have a possible role in the management of chronic pain.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
Discrete particle simulation of powder dispersion in pharmaceutical aerosol inhalers. A successful completion of the project will i) greatly enhance the Australian R&D profile and capabilities of both computational modelling and pharmaceutical aerosol research in the world; ii) provide an improved delivery of therapeutic dose to patients via inhalers with better performance to enhance the therapeutic benefits; iii) enable wide availability of inexpensive and effective pharmaceutical inhalation p ....Discrete particle simulation of powder dispersion in pharmaceutical aerosol inhalers. A successful completion of the project will i) greatly enhance the Australian R&D profile and capabilities of both computational modelling and pharmaceutical aerosol research in the world; ii) provide an improved delivery of therapeutic dose to patients via inhalers with better performance to enhance the therapeutic benefits; iii) enable wide availability of inexpensive and effective pharmaceutical inhalation products to the Australian community for the treatment of asthma and other diseases, iv) facilitate environmentally friendly technology since powder aerosol delivery does not require any harmful organic solvents to operate.Read moreRead less
Synthesis of nanoparticles by impinging liquid-jet precipitation for inhalation drug delivery. The project aim is to develop a state of the art technology for the efficient, reliable and economical production of nanoparticles of drugs suitable for inhalation delivery to the lung. Nanoparticles can penetrate deeper into the lung where they deposit and dissolve faster for enhanced therapeutic effects. The project will focus on both the production process and the particle properties for aerosol a ....Synthesis of nanoparticles by impinging liquid-jet precipitation for inhalation drug delivery. The project aim is to develop a state of the art technology for the efficient, reliable and economical production of nanoparticles of drugs suitable for inhalation delivery to the lung. Nanoparticles can penetrate deeper into the lung where they deposit and dissolve faster for enhanced therapeutic effects. The project will focus on both the production process and the particle properties for aerosol administration. Successful development of the technology will not only gain new knowledge in the key area of nanotechnology, but also lead to better inhalation therapy to benefit patients.Read moreRead less
Carbohydrates and Carbohydrate-Recognising Proteins as Drug Discovery Targets. The significance and roles of carbohydrates in many biological processes, in particular those processes associated with disease, is now well-recognised. These new directions have captured the attention and imagination of not only academic research groups across the world, but also pharmaceutical and biotechnology companies and has restimulated their interest in the pursuit of carbohydrate-based drugs and drugs against ....Carbohydrates and Carbohydrate-Recognising Proteins as Drug Discovery Targets. The significance and roles of carbohydrates in many biological processes, in particular those processes associated with disease, is now well-recognised. These new directions have captured the attention and imagination of not only academic research groups across the world, but also pharmaceutical and biotechnology companies and has restimulated their interest in the pursuit of carbohydrate-based drugs and drugs against carbohydrate-recognising proteins critical in disease processes. The current application seeks to use some of this information to faciliate the discovery of novel carbohydrate-based chemical entities as inhibitors of the spread of some cancers and diseases caused by pathogenic microorganisms.Read moreRead less
Development of a novel process for the formation of particles with controlled surface architecture for respiratory drug delivery. A successful conclusion of this project will enhance substantially the competitiveness of Australia's research in functional nanomaterials and advanced biomaterials. The Australian pharmaceutical industry will gain through the ability to develop proprietary pharmaceutical formulations targeted towards taking advantage of the novel process. Patients of asthma, lung inf ....Development of a novel process for the formation of particles with controlled surface architecture for respiratory drug delivery. A successful conclusion of this project will enhance substantially the competitiveness of Australia's research in functional nanomaterials and advanced biomaterials. The Australian pharmaceutical industry will gain through the ability to develop proprietary pharmaceutical formulations targeted towards taking advantage of the novel process. Patients of asthma, lung infection and other serious health problems will benefit from an improved delivery of therapeutic dose at a much reduced cost. The technology is environmentally friendly as powder aerosol delivery does not require any harmful organic solvent to operate.Read moreRead less
High Gravity Precipitation of Nanoparticles for Pulmonary Drug Delivery. This collaborative project aims to explore the huge market potential of drug delivery by inhalation aerosols using nanoparticles. It will apply cutting edge nanotechnology to develop new techniques using high gravity to synthesise particles of biomaterials suitable for inhalation. Nanoparticles can penetrate deeper into the lung where they deposit and dissolve faster for enhanced therapeutic effects. Successful developme ....High Gravity Precipitation of Nanoparticles for Pulmonary Drug Delivery. This collaborative project aims to explore the huge market potential of drug delivery by inhalation aerosols using nanoparticles. It will apply cutting edge nanotechnology to develop new techniques using high gravity to synthesise particles of biomaterials suitable for inhalation. Nanoparticles can penetrate deeper into the lung where they deposit and dissolve faster for enhanced therapeutic effects. Successful development of the technology will position both Australia and the industry partner to take a lead in the application of this novel technology in pharmaceutical aerosols, and provides better inhalation therapy to benefit patients.Read moreRead less
Engineering of co-crystal drug molecules for pharmaceutical aerosols. This project will enable Australia to become a world leader in treatment of respiratory diseases. The Australian financial burden of respiratory diseases is currently estimated as $900m with significant impact on infrastructure (through regular clinical visits, hospitalisation and workforce loss). The global market for the treatment of COPD is currently $32 billion and is expected to increase significantly by 2010. The positio ....Engineering of co-crystal drug molecules for pharmaceutical aerosols. This project will enable Australia to become a world leader in treatment of respiratory diseases. The Australian financial burden of respiratory diseases is currently estimated as $900m with significant impact on infrastructure (through regular clinical visits, hospitalisation and workforce loss). The global market for the treatment of COPD is currently $32 billion and is expected to increase significantly by 2010. The positioning of an Australian research as a world leader in the development of new treatments will have significant national benefit, whilst the sector will benefit for scientific advancements that arise during this project.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668496
Funder
Australian Research Council
Funding Amount
$950,000.00
Summary
Facility for Structural Analysis of Bio-Molecular Complexes and Self Assembly. The research will advance our understanding of biological systems and this new knowledge will lead to innovative approaches to healthy living (therapeutics, drugs). We will have a better understanding of genetic diversity in the microbial environment and of biological adaptation that provides a foundation for environmental management as well as opportunities for biotechnology development. Studies of self-assembling ....Facility for Structural Analysis of Bio-Molecular Complexes and Self Assembly. The research will advance our understanding of biological systems and this new knowledge will lead to innovative approaches to healthy living (therapeutics, drugs). We will have a better understanding of genetic diversity in the microbial environment and of biological adaptation that provides a foundation for environmental management as well as opportunities for biotechnology development. Studies of self-assembling systems will advance fundamental and applied research in biology, as well as our understanding of the forces driving self-assembly that can lead to the development of new materials. The facility will provide unique opportunities for collaboration with biotechnology and biomedical industry partners.Read moreRead less
Development of carbohydrate-based drug delivery systems. Chronic skin disorders affect 5% of the population. Treatment is challenging and long term because these disorders are chronic and unpredictable. Currently the most potent therapies for psoriasis are administered systemically. Long term usage of these therapies causes side effects such as kidney or liver damage. This proposal describes a new approach to the topical treatment of psoriasis where potent drugs are linked to a hyaluronan sca ....Development of carbohydrate-based drug delivery systems. Chronic skin disorders affect 5% of the population. Treatment is challenging and long term because these disorders are chronic and unpredictable. Currently the most potent therapies for psoriasis are administered systemically. Long term usage of these therapies causes side effects such as kidney or liver damage. This proposal describes a new approach to the topical treatment of psoriasis where potent drugs are linked to a hyaluronan scaffold molecule and are directly applied to the diseased tissue. Advantages of this approach include targeted drug delivery mediated by hyaluronan receptor processes and potential amelioration of the observed drug toxicities.Read moreRead less