Novel kinases: How do they regulate epithelial ion transport, and what is their role in epithelial function? The project will produce the knowledge of fundamental physiology that will lead to novel approaches for treating respiratory and gastrointestinal infections and cystic fibrosis, as well as for the accumulation of fluid in the lungs and abdomen that accompany many advanced malignancies. It thus has the potential to have a significant economic and social impact in Australia and internation ....Novel kinases: How do they regulate epithelial ion transport, and what is their role in epithelial function? The project will produce the knowledge of fundamental physiology that will lead to novel approaches for treating respiratory and gastrointestinal infections and cystic fibrosis, as well as for the accumulation of fluid in the lungs and abdomen that accompany many advanced malignancies. It thus has the potential to have a significant economic and social impact in Australia and internationally. Furthermore, it will provide advanced training in research methods to Australian scientists, equipping them to undertake challenging and interesting positions in the medical and life sciences and beyond.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
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
Development of Chemoenzymatic Methods for the Selective Elaboration of Polyfunctionalised Therapeutic Agents to Oligomers with Improved Efficacy. The aims of the project are to screen a novel collection of genetically engineered enzymes for their capacity to selectively manipulate proven therapeutic agents so that, ultimately, much more potent polymeric derivatives of the agent/drug can be obtained. The combined use of enzyme libraries and chemical manipulations to generate more powerful polymer ....Development of Chemoenzymatic Methods for the Selective Elaboration of Polyfunctionalised Therapeutic Agents to Oligomers with Improved Efficacy. The aims of the project are to screen a novel collection of genetically engineered enzymes for their capacity to selectively manipulate proven therapeutic agents so that, ultimately, much more potent polymeric derivatives of the agent/drug can be obtained. The combined use of enzyme libraries and chemical manipulations to generate more powerful polymeric variants of already established drugs has never been undertaken previously in Australia. This approach has the capacity to generate hitherto inaccessible classes of therapeutic entities and to provide a new and unique technology platform for the country's biotechnology industry.Read moreRead less
Chemical Synthesis and Biological Evaluation of Analogues of Platencin, a New-generation Antibiotic. The just discovered natural product platencin displays potent and broad spectrum anti-bacterial activity. It may represent the precursor of a new class of drugs to replace current anti-infective agents which are becoming alarmingly less effective as bacterial resistance increases dramatically. For this reason, platencin has been described as a once in a generation discovery. This study will explo ....Chemical Synthesis and Biological Evaluation of Analogues of Platencin, a New-generation Antibiotic. The just discovered natural product platencin displays potent and broad spectrum anti-bacterial activity. It may represent the precursor of a new class of drugs to replace current anti-infective agents which are becoming alarmingly less effective as bacterial resistance increases dramatically. For this reason, platencin has been described as a once in a generation discovery. This study will exploit two sophisticated new synthetic techniques for the purposes of making analogues of platencin that will be screened by the industry partner, Biota, for anti-bacterial properties. New drug candidates capable of treating especially dangerous infections such as methicillin resistant staphyllococcus aureus (MRSA) should thus emerge.Read moreRead less
Chemoenzymatic Routes to Novel Dendritic Architectures Suitable for Pharmaceutical Applications. Dendritic molecules incorporating multiple copies of a particular functional group on their periphery allow for attachment of drug-like molecules at each of these sites. The resulting conjugates often have vastly superior therapeutic properties relative to the original single drug molecule. This phenomenon is now revolutionizing drug design. Developments in this area are limited by the range of dendr ....Chemoenzymatic Routes to Novel Dendritic Architectures Suitable for Pharmaceutical Applications. Dendritic molecules incorporating multiple copies of a particular functional group on their periphery allow for attachment of drug-like molecules at each of these sites. The resulting conjugates often have vastly superior therapeutic properties relative to the original single drug molecule. This phenomenon is now revolutionizing drug design. Developments in this area are limited by the range of dendritic molecules currently available. Thus, lack of variation in the three-dimensional architecture and the functionality available at the periphery of such constructs is a serious deficiency. This proposal seeks to redress this through the application of novel chemoenzymatic methods developed by the applicant.Read moreRead less
The Development of New, Non-steroidal Anti-Asthma Drugs with Novel Modes of Action. Asthma represents one of Australia's most significant chronic disease states. It adversely affects the lives of many hundreds of thousands of citizens and represents a growing problem, especially amongst younger members of the population. The start-up biotech company Cryptopharma has recently identified a family of steroid derivatives that deliver, through a novel mode of action, significant anti-asthma activity ....The Development of New, Non-steroidal Anti-Asthma Drugs with Novel Modes of Action. Asthma represents one of Australia's most significant chronic disease states. It adversely affects the lives of many hundreds of thousands of citizens and represents a growing problem, especially amongst younger members of the population. The start-up biotech company Cryptopharma has recently identified a family of steroid derivatives that deliver, through a novel mode of action, significant anti-asthma activity in in-vivo models. The purpose of the present work is to develop, through comprehensive synthetic organic chemistry and medicinal chemistry-type studies, non-steroidal analogues of Cryptopharma's lead compound that can be used clinically in the treatment of asthma.Read moreRead less
The Scale-up and Evaluation of a Novel Dense Gas Technology Platform for the Production of Particles for Aerosol Drug Delivery. This project provides a unique opportunity to develop an Australian-invented technology in particle engineering, enabling it to enter the international pharmaceutical market. This will enhance the growth of Australia's pharmaceutical research and development, and benefit the Australian pharmaceutical industry. The outcome will also contribute to improvements in the heal ....The Scale-up and Evaluation of a Novel Dense Gas Technology Platform for the Production of Particles for Aerosol Drug Delivery. This project provides a unique opportunity to develop an Australian-invented technology in particle engineering, enabling it to enter the international pharmaceutical market. This will enhance the growth of Australia's pharmaceutical research and development, and benefit the Australian pharmaceutical industry. The outcome will also contribute to improvements in the health and well-being of Australians. The research falls within the Designated National Research Priority of Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less