Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100164
Funder
Australian Research Council
Funding Amount
$310,000.00
Summary
A facility for ex-vivo molecular imaging. The facility will allow a consortium of Australian researchers to create an integrated facility for imaging biological receptors in tissue, bringing together laboratory, radiochemistry and imaging expertise. Digital data at each site will be able to be viewed and analysed remotely.
Advancing hybrid imaging with magnetic resonance imaging and positron emission tomography (MRI-PET). This project aims to increase the utility, accessibility, cost-effectiveness and accuracy of magnetic resonance imaging and positron emission tomography (MRI-PET) hybrid imaging technology for brain tumour imaging. This project will develop new contrast agents, better ways of measuring their uptake including a new high sensitivity MRI-PET head coil and methods for predicting tumour progression us ....Advancing hybrid imaging with magnetic resonance imaging and positron emission tomography (MRI-PET). This project aims to increase the utility, accessibility, cost-effectiveness and accuracy of magnetic resonance imaging and positron emission tomography (MRI-PET) hybrid imaging technology for brain tumour imaging. This project will develop new contrast agents, better ways of measuring their uptake including a new high sensitivity MRI-PET head coil and methods for predicting tumour progression using imaging information.Read moreRead less
Synthetic extracellular matrices for control of cellular reprogramming. This project aims to design materials that control the cellular environment for the fast, efficient, and reproducible production of reprogrammed cells in embryo-like architectures. Regenerative medicine has entered a new era, where reprogramming a patient’s cells is now possible for studying and treating disease. The expected outcomes of this project include mechanistic details of cell reprogramming, design rules for 3D prin ....Synthetic extracellular matrices for control of cellular reprogramming. This project aims to design materials that control the cellular environment for the fast, efficient, and reproducible production of reprogrammed cells in embryo-like architectures. Regenerative medicine has entered a new era, where reprogramming a patient’s cells is now possible for studying and treating disease. The expected outcomes of this project include mechanistic details of cell reprogramming, design rules for 3D printing of living cells and commercially viable reprogramming materials. The project expects to contribute fundamental knowledge in materials and biomedical sciences, while providing tools that will benefit commercial ventures in cell and tissue manufacturing.Read moreRead less