High-load powder dispersion and aerosol delivery: an integrated approach. This project aims to develop a novel design toolbox that can accurately predict dispersion performance of a range of powder systems for high-dose inhaler devices. The project expects to provide the pharmaceutical industry with a cornerstone technology to facilitate the design and optimisation of new powder delivery devices. Outcomes are expected to include new knowledge on powder dispersion behaviour that can be applied to ....High-load powder dispersion and aerosol delivery: an integrated approach. This project aims to develop a novel design toolbox that can accurately predict dispersion performance of a range of powder systems for high-dose inhaler devices. The project expects to provide the pharmaceutical industry with a cornerstone technology to facilitate the design and optimisation of new powder delivery devices. Outcomes are expected to include new knowledge on powder dispersion behaviour that can be applied to various industry sectors, including the environmental, bulk chemical and food industries where the majority of products are in powder form. This knowledge will provide significant benefits to industry through provision of a toolkit that can be used to improve final powder-based product quality.Read moreRead less
A novel approach for the real-time measurement of aerosol surface area. This project aims to develop an innovative optical tomography technology capable of direct and real-time measurement of the surface area of airborne particles. By coupling advanced laser diagnostic tools with physiological models and in vitro characterisation techniques, this project will determine the hitherto unknown fundamental and critical relationships between the surface area of an aerosol and its dissolution when deli ....A novel approach for the real-time measurement of aerosol surface area. This project aims to develop an innovative optical tomography technology capable of direct and real-time measurement of the surface area of airborne particles. By coupling advanced laser diagnostic tools with physiological models and in vitro characterisation techniques, this project will determine the hitherto unknown fundamental and critical relationships between the surface area of an aerosol and its dissolution when delivered to a target. The Project’s outcomes will enable aerosol device manufacturers to develop and market significantly more advanced and highly specific products, thus conferring a competitive advantage.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100888
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Illuminating drug activity in the brain with nanocrystalline beacons. The project focuses on developing technologies to understand the activity of drugs and precisely locate their target sites in the brain. Novel nanocrystalline beacons and ultrahigh-sensitivity optical imaging technology developed in the project have the aim to help visualise opioid and other related drug molecules over extended periods, which is impossible with current methods. Quantifying drug target distribution in the brain ....Illuminating drug activity in the brain with nanocrystalline beacons. The project focuses on developing technologies to understand the activity of drugs and precisely locate their target sites in the brain. Novel nanocrystalline beacons and ultrahigh-sensitivity optical imaging technology developed in the project have the aim to help visualise opioid and other related drug molecules over extended periods, which is impossible with current methods. Quantifying drug target distribution in the brain and imaging their dynamics on a single molecule level will shed light on drug-target interactions.Read moreRead less
Particle transport in the human upper airway. This project aims to determine the fundamental mechanisms that drive particle transport in physiologically realistic human airways. Through use of novel magnetic resonance imaging and laser diagnostic techniques, the project expects to transform our ability to develop effective and validated predictive capabilities for particle transport in physiologically accurate geometries. The project outcomes are expected to enable unprecedented definition of ho ....Particle transport in the human upper airway. This project aims to determine the fundamental mechanisms that drive particle transport in physiologically realistic human airways. Through use of novel magnetic resonance imaging and laser diagnostic techniques, the project expects to transform our ability to develop effective and validated predictive capabilities for particle transport in physiologically accurate geometries. The project outcomes are expected to enable unprecedented definition of how particles are transported in human airways as a function of breathing profiles, particle properties and morphology.Read moreRead less
Probing Anaesthetic Effects with New Functional Imaging Paradigms. This project seeks new insights into the effects of anaesthetics on brain function and repair. Anaesthesia is used in small-animal imaging to immobilise the animal, but in many cases the anaesthesia itself affects the neurophysiological parameters under study. It has also been shown that many anaesthetics enhance recovery after brain injury in small animals. This project plans to exploit a novel functional brain-imaging technique ....Probing Anaesthetic Effects with New Functional Imaging Paradigms. This project seeks new insights into the effects of anaesthetics on brain function and repair. Anaesthesia is used in small-animal imaging to immobilise the animal, but in many cases the anaesthesia itself affects the neurophysiological parameters under study. It has also been shown that many anaesthetics enhance recovery after brain injury in small animals. This project plans to exploit a novel functional brain-imaging technique for conscious animals to gain new insights into the effects of anaesthetics on brain function and recovery from injury. The knowledge gained is expected to improve knowledge of anaesthetic action, guide future anaesthetic use in small animal imaging to improve the accuracy of image-derived research data, and help to clarify how anaesthetics confer neuroprotective effects in brain injury.Read moreRead less