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A nanoengineered solution to drug delivery in bone. This project presents an exciting new approach of applying nanotechnology to bone research. By combining our expertise in nanoengineering of new materials, mathematical modelling and bone biology, this project will result in a well-characterised model for drug delivery into bone and lead to a new therapeutic approach for treating bone diseases.
Atomized mucoadhesive particles for pulmonary gene delivery. Scientific and technological advances in material science, biotechnology and biomedical devices are poised to revolutionise healthcare and medicine. By using precisely engineered biomaterials in an efficient miniature electronic inhalation device, a mist of inhalable therapeutics can be generated to deliver improved lung healthcare for Australians.
Discovery Early Career Researcher Award - Grant ID: DE130100488
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Cellular dynamics of nanoengineered particles. Nanotechnology has the capacity to drive a new wave of biological innovation through engineering materials at the nanoscale. This project will advance understanding of how nanoengineered materials interact with biological systems to enable the development of nanomaterials for future translational research.
Multifunctional biodegradable nanoparticles for enhanced DNA vaccine delivery. DNA vaccine, which shows better immunological and economic merits than conventional vaccines, suffers clinical failure due to the difficulty of delivering intact DNA molecules to relevant cells. This project seeks to develop smart polymer nanospheres to protect the DNA molecules from premature degradation in order to improve its efficacy.
Development of dense gas technology platforms for the formulation of oral vaccines. This project will aim to develop a technology platform that enables the formulation of vaccines that can be delivered orally and this research has the potential to radically change existing vaccination regimens. The availability of needle-free vaccination also has potential for considerable societal and economic impact in developing countries.
Magnetofection In An Oscillating Magnetic Field. The success of genetic engineering is largely dependent on the ability of transfection agents to deliver genes. Low transfection efficiency is now widely recognised as a critical bottleneck to successful gene delivery. The recent emphasis on the development of nanoscale delivery agents has led to new physics and chemistry-based techniques, which take advantage of charge interactions and energetic processes. This multidisciplinary project aims to a ....Magnetofection In An Oscillating Magnetic Field. The success of genetic engineering is largely dependent on the ability of transfection agents to deliver genes. Low transfection efficiency is now widely recognised as a critical bottleneck to successful gene delivery. The recent emphasis on the development of nanoscale delivery agents has led to new physics and chemistry-based techniques, which take advantage of charge interactions and energetic processes. This multidisciplinary project aims to address this highly significant problem by developing a novel methodology to manipulate nanoparticles under the influence of an oscillating magnetic field to achieve high transfection efficiencies in a highly relevant model of epigenetic reprogramming.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100076
Funder
Australian Research Council
Funding Amount
$367,446.00
Summary
Scalable synthesis of smart nanoworms with tailored properties. This project aims to develop next-generation nanomaterials that have a special worm-like shape and can intelligently respond to environmental signals. The project is expected to generate new knowledge in the area of advanced manufacturing utilising innovative approaches in nanotechnology and polymer chemistry. The anticipated outcome is an environmentally friendly technology for industrial production of high value-added nanomaterial ....Scalable synthesis of smart nanoworms with tailored properties. This project aims to develop next-generation nanomaterials that have a special worm-like shape and can intelligently respond to environmental signals. The project is expected to generate new knowledge in the area of advanced manufacturing utilising innovative approaches in nanotechnology and polymer chemistry. The anticipated outcome is an environmentally friendly technology for industrial production of high value-added nanomaterials that may ultimately have a variety of applications including, but not limited to, early diagnosis and efficient therapy of cancer. This should provide benefits to the Australian economy, environment and society.Read moreRead less
Skin penetration of nanoparticles promoted by particle design, formulation and application method. This project seeks to better define the determinants of nanoparticle skin penetration and subsequent disposition in the body. The data would be used to guide minimal skin penetration of 'undesirable' nanoparticles and the properties required of 'safe' nanoparticles to enable effective human skin delivery in cosmetic and dermatological products.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100168
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Facility for Characterisation of BioNanomaterials. Facility for characterisation of bionanomaterials:
The facility for characterisation of bionanomaterials aims to provide researchers with access to an integrated facility for advanced characterisation of nanomaterials from inception to application in biomedicine. Nanotechnology has contributed to significant advances across a range of disciplines and is increasingly used in biomedical applications. The facility aims to allow detailed examinatio ....Facility for Characterisation of BioNanomaterials. Facility for characterisation of bionanomaterials:
The facility for characterisation of bionanomaterials aims to provide researchers with access to an integrated facility for advanced characterisation of nanomaterials from inception to application in biomedicine. Nanotechnology has contributed to significant advances across a range of disciplines and is increasingly used in biomedical applications. The facility aims to allow detailed examination of how nanomaterials interact in biological systems; from individual nanoparticles to whole animals, and through developing this fundamental understanding provide the means to produce new and highly effective nanomaterials for biomedical applications. The facility plans to support programs using nanomaterials for molecular imaging and intelligent drug delivery, while developing greater understanding of how to create more effective nanobiomaterials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100125
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Advanced fluorescence imaging facility: from super high resolution to whole animal imaging. The establishment of this advanced fluorescence imaging facility will provide cutting-edge infrastructure to examine cells, pathogens and interactions between engineered drug delivery systems in both cells and whole animals. The facility will foster the development of new nanomedicines.