Dispersion of Pharmaceutical Powders as Aerosols for Inhalation. The detrimental environmental effects of chlorofluorocarbons (CFC) have led to an urgent need of a replacement for the existing CFC propellant driven medical inhalers. Generation of aerosols from dry powders has enormous potential as an alternative for delivery of drugs to the lung. The aims of the proposed research are to investigate specifically the powder surface properties and the orperating conditions on the dispersion of po ....Dispersion of Pharmaceutical Powders as Aerosols for Inhalation. The detrimental environmental effects of chlorofluorocarbons (CFC) have led to an urgent need of a replacement for the existing CFC propellant driven medical inhalers. Generation of aerosols from dry powders has enormous potential as an alternative for delivery of drugs to the lung. The aims of the proposed research are to investigate specifically the powder surface properties and the orperating conditions on the dispersion of powders as aerosols for inhalation. The knowledge gained will acclerate the design of better powder aerosols, thus benefiting patients suffering from respiratory and systemic diseases.Read moreRead less
Mannitol Powders for Assessment of Asthma in Children. A successful conclusion of this project will enable Australia to become a world leader in childhood asthma assessment. The availability of an objective diagnostic test for early detection of asthma would assist formulating early treatment strategies at this crucial stage in the progression of the disease, improving the quality of life of asthma sufferers in their early years. The Australian pharmaceutical sector will benefit through the ab ....Mannitol Powders for Assessment of Asthma in Children. A successful conclusion of this project will enable Australia to become a world leader in childhood asthma assessment. The availability of an objective diagnostic test for early detection of asthma would assist formulating early treatment strategies at this crucial stage in the progression of the disease, improving the quality of life of asthma sufferers in their early years. The Australian pharmaceutical sector will benefit through the ability to develop proprietary formulations targeted towards taking advantages of the scientific knowledge on pharmaceutical powders and aerosols. The mannitol testing is environmental friendly as powder aerosol delivery does not require any harmful organic solvents to operate.Read moreRead less
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
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
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
Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team ....Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team could make huge and rapid progressions in this area of therapeutics. New intellectual property in the area of therapeutic particle production is the cornerstone of this project and could deliver lasting economic benefits through the creation of new health products and patents.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238094
Funder
Australian Research Council
Funding Amount
$197,000.00
Summary
Fine and Ultrafine Particle - Characterisation and Research Facility. The proposed grant aims to establish an integrated facility for characterising and researching fine and ultrafine particles. It will serve various research groups of three collaborating universities. Current facilities are limited to characterisation of liquid-borne particles down to 10 nm size. To extend the groups research interests into aerosols and nanoparticles the facilities requested in this grant are essential. Equipme ....Fine and Ultrafine Particle - Characterisation and Research Facility. The proposed grant aims to establish an integrated facility for characterising and researching fine and ultrafine particles. It will serve various research groups of three collaborating universities. Current facilities are limited to characterisation of liquid-borne particles down to 10 nm size. To extend the groups research interests into aerosols and nanoparticles the facilities requested in this grant are essential. Equipment critical for research into catalytic processes is also requested. Integration of the groups will create a force that institutions and industries,nation-wide, can turn to when the need for competent analytical and research solutions for particles and catalysis arises.Read moreRead less
Mastering the Microenvironment - Integrated, functional, biosynthetic scaffolds for tissue engineering. Organ transplantation is available to only the lucky few, with, for example, less than 3000 of Australia's annual 30,000 patients suffering end-stage renal failure receiving transplants. Tissue engineering of soft, functional tissues using in vitro and/or in vivo methods offers the potential to replace missing or non-functioning tissues, such as liver, pancreas, lung, heart, fat and muscle, wi ....Mastering the Microenvironment - Integrated, functional, biosynthetic scaffolds for tissue engineering. Organ transplantation is available to only the lucky few, with, for example, less than 3000 of Australia's annual 30,000 patients suffering end-stage renal failure receiving transplants. Tissue engineering of soft, functional tissues using in vitro and/or in vivo methods offers the potential to replace missing or non-functioning tissues, such as liver, pancreas, lung, heart, fat and muscle, with newly created tissue. This project will deliver integrated, functional polymeric scaffolds for organ replacement. Over 12 higher degree candidates and one research associate will be trained in the field of tissue engineering, representing a significant benefit to the Australian scientific community.Read moreRead less