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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989788
Funder
Australian Research Council
Funding Amount
$108,481.00
Summary
Nuclear Magnetic Resonance Microimaging and Relaxometry Facility. Many of the research projects to be supported by the facility are dedicated to improving our understanding of conditions and diseases that detrimentally affect many in our community. Projects investigating Alzheimer's disease, the central nervous system and its ability to repair, cancer and associated therapeutic treatments are some of the areas that will benefit from access to this equipment. The new facility will also provide un ....Nuclear Magnetic Resonance Microimaging and Relaxometry Facility. Many of the research projects to be supported by the facility are dedicated to improving our understanding of conditions and diseases that detrimentally affect many in our community. Projects investigating Alzheimer's disease, the central nervous system and its ability to repair, cancer and associated therapeutic treatments are some of the areas that will benefit from access to this equipment. The new facility will also provide unique insights into aspects of fundamental plant biology, with implications for improving crop productivity and better managing our natural ecosystems. The community will also benefit from the development and testing within the facility of new diagnostic tools and markers for a range of diseases.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100775
Funder
Australian Research Council
Funding Amount
$368,446.00
Summary
Using nanostructured scaffolds to understand and engineer neuronal circuits. This project aims to understand the formation of neuronal circuits in the brain. While the role of biochemical features in the brain is well understood, it is not clear how the biophysical properties of the brain affect circuit formation. The outcomes of this project will improve our understanding of neuronal circuit formation as well as provide design rules for creating scaffolds to repair neuronal circuits after brain ....Using nanostructured scaffolds to understand and engineer neuronal circuits. This project aims to understand the formation of neuronal circuits in the brain. While the role of biochemical features in the brain is well understood, it is not clear how the biophysical properties of the brain affect circuit formation. The outcomes of this project will improve our understanding of neuronal circuit formation as well as provide design rules for creating scaffolds to repair neuronal circuits after brain damage. This project will integrate Australia’s strengths in nanotechnology and neurosciences, bringing Australian research at the forefront of neural engineering.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100900
Funder
Australian Research Council
Funding Amount
$366,000.00
Summary
Smart aptamer-guided nanoexosome as a novel biotechnology platform. This project aims to develop guided novel nanomaterials as a new biotechnological platform for in vivo targeted delivery of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) for gene editing. By systematically engineering the surface properties of natural nanovesicles known as exosomes, a novel nanotechnology platform should be established. The guided nano biotechnological platform should not only enable targete ....Smart aptamer-guided nanoexosome as a novel biotechnology platform. This project aims to develop guided novel nanomaterials as a new biotechnological platform for in vivo targeted delivery of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) for gene editing. By systematically engineering the surface properties of natural nanovesicles known as exosomes, a novel nanotechnology platform should be established. The guided nano biotechnological platform should not only enable targeted in vivo precision gene editing via CRISPR but also specific delivery of gene editing machinery across the blood brain barrier for better exploration of fundamental biology of the brain.Read moreRead less
Using magnetic nanotechnology to aid recovery from neurotrauma. Nanotechnology is an exciting new field that holds great promise to solve challenging health issues including neurotrauma associated with brain and spinal cord injury. Current methods to deliver drugs and stimulate tissue repair after neurotrauma do not work effectively and new approaches are urgently need. The recently established research team brings together expertise in nanotechnology and neuroscience to develop new, safe ways t ....Using magnetic nanotechnology to aid recovery from neurotrauma. Nanotechnology is an exciting new field that holds great promise to solve challenging health issues including neurotrauma associated with brain and spinal cord injury. Current methods to deliver drugs and stimulate tissue repair after neurotrauma do not work effectively and new approaches are urgently need. The recently established research team brings together expertise in nanotechnology and neuroscience to develop new, safe ways to deliver drugs and stimulate tissue repair after neurotrauma, and provide quality research training. Specifically designed nanomaterials will deliver drugs slowly over time and act as scaffolds to stop cells dying and stimulate them to restore broken connections and work again. Read moreRead less
Targeted enzymatic treatment of the injured central nervous system using innovative nanotechnology. Nanotechnology and other frontier areas in science have exciting potential to solve major challenges of the 21st century, including health. The proposed research provides the real possibility of discovering ways to alleviate the many complex problems associated with neurotrauma following, for example, brain and spinal cord injury. Current delivery of therapeutics do not work effectively and new ap ....Targeted enzymatic treatment of the injured central nervous system using innovative nanotechnology. Nanotechnology and other frontier areas in science have exciting potential to solve major challenges of the 21st century, including health. The proposed research provides the real possibility of discovering ways to alleviate the many complex problems associated with neurotrauma following, for example, brain and spinal cord injury. Current delivery of therapeutics do not work effectively and new approaches are urgently needed. The recently established powerful multidisciplinary research team combines expertise in nanotechnology, glycobiology and neuroscience to develop novel, safe ways to deliver therapeutic enzymes over biological time-courses. We aim to make broken connections work again, while providing quality research training.Read moreRead less
Engineering layered double hydroxide nanoparticles toward an efficient targeted clinical delivery system. This project will develop a more effective drug delivery system using clay nanoparticles and biofriendly serum proteins. Outcomes from this project will provide a tremendous opportunity for potent therapies of cancers, vasculature and neuronal diseases, and place Australia at the forefront of nanotechnology drug delivery research.
TAILORING OF LAYERED DOUBLE HYDROXIDE NANOPARTICLES FOR EFFECTIVE DELIVERY OF BIOLOGICALLY ACTIVE PEPTIDES AND cDNAs. This project will lead to a new class of nanoparticle for effective peptide and DNA transfer, promising efficient drug delivery system with controllable loading and releasing and thus help maintain good health, particularly targeting neurological diseases. This project has also involved fundamental research into the nanomaterial science, surface chemistry, cell biochemistry and n ....TAILORING OF LAYERED DOUBLE HYDROXIDE NANOPARTICLES FOR EFFECTIVE DELIVERY OF BIOLOGICALLY ACTIVE PEPTIDES AND cDNAs. This project will lead to a new class of nanoparticle for effective peptide and DNA transfer, promising efficient drug delivery system with controllable loading and releasing and thus help maintain good health, particularly targeting neurological diseases. This project has also involved fundamental research into the nanomaterial science, surface chemistry, cell biochemistry and neuron sciences. Successful completion of the project will contribute to the development of advanced materials helping Australia advance and build the industrial competitiveness. Through this project highly skilled researchers will be well trained. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100146
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Multiphoton confocal microscope for high-speed, deep tissue imaging and multimodal nanoscale characterisation. This facility will provide the ability to optically section deep nanoparticles, cells, tissues and whole animals at high speed with unsurpassed spatial resolution at the atomic level. It will give biomedical, physical and life scientists and materials engineers the opportunity to image a range of dynamic processes and reconstruct these in three dimensions for the first time.
Novel Hybrid Inorganic Nanoparticles for Effective siRNA Delivery to Neurons. This project will lead to a more efficient and reliable drug delivery system to treat Huntington's disease. The insights and technology gained from this project will be directly applicable for many human diseases, both within and outside the central nervous system. This project will make a major contribution to the ARC's goal of maintaining good health and promises to significantly reduce the financial and psychologica ....Novel Hybrid Inorganic Nanoparticles for Effective siRNA Delivery to Neurons. This project will lead to a more efficient and reliable drug delivery system to treat Huntington's disease. The insights and technology gained from this project will be directly applicable for many human diseases, both within and outside the central nervous system. This project will make a major contribution to the ARC's goal of maintaining good health and promises to significantly reduce the financial and psychological burdens to patients' family and community. This project will encourage inter-disciplinary approaches to research and train highly skilled researchers both in neuroscience and nanobiotechnology to advance Australia's industrial competitiveness.Read moreRead less
Using nanostructured biomaterials and stem cells to repair spinal cord injuries. There is currently no effective cure for spinal cord injuries and the consequences to the patient are devastating. Spinal cord injuries affects limb, bowel, bladder and sexual function, and many people with these injuries strugle to maintain their independence. Because people can live for many years after spinal cord damage, the financial and social costs are immense, as many are dependent on the help of others for ....Using nanostructured biomaterials and stem cells to repair spinal cord injuries. There is currently no effective cure for spinal cord injuries and the consequences to the patient are devastating. Spinal cord injuries affects limb, bowel, bladder and sexual function, and many people with these injuries strugle to maintain their independence. Because people can live for many years after spinal cord damage, the financial and social costs are immense, as many are dependent on the help of others for their survival. This proposal tackles this urgent problem by applying advanced nanostructured materials with stem cells, to assist the body in the repair of the spinal cord following injury. Read moreRead less