Industrial Transformation Research Hubs - Grant ID: IH150100028
Funder
Australian Research Council
Funding Amount
$3,708,510.00
Summary
ARC Research Hub for Integrated Device for End-user Analysis at Low-levels. ARC Research Hub for Integrated Device for End-user Analysis at Low-levels. This hub aims to improve detection of biological materials by building a portable device for rapid, time-critical detection of low-abundance molecular and cellular analytes. It is expected that the resulting technologies would be used at medical points of care, ordinary workplaces and centres of activity to test for tiny levels of targeted molecu ....ARC Research Hub for Integrated Device for End-user Analysis at Low-levels. ARC Research Hub for Integrated Device for End-user Analysis at Low-levels. This hub aims to improve detection of biological materials by building a portable device for rapid, time-critical detection of low-abundance molecular and cellular analytes. It is expected that the resulting technologies would be used at medical points of care, ordinary workplaces and centres of activity to test for tiny levels of targeted molecules. The initial focus would be early diagnosis of disease and point-of-care drug testing for humans and animals, but the technology platform could be used to sample food and environmental toxins. The hub expects these disruptive technologies will make Australian biotechnology, diagnostics, veterinary, agribusiness and manufacturing firms globally competitive.Read moreRead less
Artificial intelligence algorithms to predict risk of injury in racehorses. This project will address the urgent need for predicting and preventing catastrophic and career limiting limb injuries and cardiac arrhythmias in racehorses due to over (or under) training. Using data from GPS and movement sensors integrated into saddlecloths, artificial intelligence algorithms will convert cumulative data on speed, gait, and stride characteristics during training, along with injury data, into a risk mat ....Artificial intelligence algorithms to predict risk of injury in racehorses. This project will address the urgent need for predicting and preventing catastrophic and career limiting limb injuries and cardiac arrhythmias in racehorses due to over (or under) training. Using data from GPS and movement sensors integrated into saddlecloths, artificial intelligence algorithms will convert cumulative data on speed, gait, and stride characteristics during training, along with injury data, into a risk matrix. Recorded heart rate and ECG data will also be analysed using artificial intelligence to detect early evidence of the development of cardiac arrhythmias. The system will improve racehorse welfare, providing a simple interface to warn trainers when risk of injury becomes high, in order to prevent catastrophic breakdown.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100088
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
nano infrared and sub micron Raman spectroscopy and imaging. Nano infrared and sub micron raman spectroscopy and imaging: Near-field Infrared (IR) spectroscopy and imaging systems will be coupled to near-field scanning optical microscopes to provide IR spectroscopy and molecular images at less than 20 nanometre lateral resolution. This is unprecedented resolution for infrared fingerprinting and molecular imaging. For two months a year the spectroscopy system will be coupled to the IR beamline at ....nano infrared and sub micron Raman spectroscopy and imaging. Nano infrared and sub micron raman spectroscopy and imaging: Near-field Infrared (IR) spectroscopy and imaging systems will be coupled to near-field scanning optical microscopes to provide IR spectroscopy and molecular images at less than 20 nanometre lateral resolution. This is unprecedented resolution for infrared fingerprinting and molecular imaging. For two months a year the spectroscopy system will be coupled to the IR beamline at the Australian synchrotron, to provide full IR spectral coverage available to all Australian and New Zealand scientists. A confocal raman spectrometer will be upgraded to the ultraviolet to provide spectra at less than 150 nanometre resolution. These systems will provide a unique Australian resource for nanoscientists, biomedical researchers and materials scientists requiring molecular information on the nanoscale.Read moreRead less
Transformational diagnostics. Australia has established world-leading capabilities in optical fibres and surface science that, when brought together, have the potential to transform applications that require non-invasive, real-time and/or portable biological detection tools. We propose a novel and ambitious suite of projects that bring together these capabilities with experts in reproductive health, forensics and explosives to solve pressing problems in each of these areas that have the promise ....Transformational diagnostics. Australia has established world-leading capabilities in optical fibres and surface science that, when brought together, have the potential to transform applications that require non-invasive, real-time and/or portable biological detection tools. We propose a novel and ambitious suite of projects that bring together these capabilities with experts in reproductive health, forensics and explosives to solve pressing problems in each of these areas that have the promise to develop into new industries for Australia as well as to explore rich science opportunities at the boundaries of these disciplines.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100026
Funder
Australian Research Council
Funding Amount
$230,000.00
Summary
VetCompass: Big Data and Real-time Surveillance for Veterinary Science. VetCompass: big data and real-time surveillance for veterinary science:
The VetCompass data service intends to collect real-time records from veterinary clinics and aggregate them for researchers to interrogate. It aims to provide Australian researchers with sustainable and cost-effective access to authoritative data from hundreds of practitioners in Australia and the United Kingdom. These data will be essential for researc ....VetCompass: Big Data and Real-time Surveillance for Veterinary Science. VetCompass: big data and real-time surveillance for veterinary science:
The VetCompass data service intends to collect real-time records from veterinary clinics and aggregate them for researchers to interrogate. It aims to provide Australian researchers with sustainable and cost-effective access to authoritative data from hundreds of practitioners in Australia and the United Kingdom. These data will be essential for research on disease distribution and determinants, and surveillance and diagnostics that underpin evidence-based practice. The expected outcomes include identification of the most prevalent disorders and their causes and optimal treatments. The data may also revolutionise clinical auditing in Australia, help the veterinary profession to rank research priorities, and inform companion animal and equine curricula in our universities.Read moreRead less
Development of an endofunctional capsule for targeted delivery of biomarkers in the alimentary tract. The proposed capsule will provide a solution to the problem of accessing the small intestine for targeted delivery of biomarkers and drugs, and contribute to translational medical research to enhance our understanding of the function of the gut. Successful completion of this project will build on defined priority areas of research strength in Australia (frontier technologies, smart information u ....Development of an endofunctional capsule for targeted delivery of biomarkers in the alimentary tract. The proposed capsule will provide a solution to the problem of accessing the small intestine for targeted delivery of biomarkers and drugs, and contribute to translational medical research to enhance our understanding of the function of the gut. Successful completion of this project will build on defined priority areas of research strength in Australia (frontier technologies, smart information use) and assist in the provision of information critical to the design of novel in vivo endofunctional devices. The technologies to be developed in this project will be translatable to the development of other in vivo functional investigation and treatment devices. Read moreRead less
Novel nanosensors for monitoring of water filtration membrane integrity. Novel nanosensors for monitoring of water filtration membrane integrity. This project aims to develop arrays of electrochemical biosensors based on nanostructured silicon for real-time monitoring of water filtration membrane integrity. Real-time monitoring of membrane performance, based on removing virus-sized particles, is a priority for the water industry to maximise asset life and meet increased demand for safe and high- ....Novel nanosensors for monitoring of water filtration membrane integrity. Novel nanosensors for monitoring of water filtration membrane integrity. This project aims to develop arrays of electrochemical biosensors based on nanostructured silicon for real-time monitoring of water filtration membrane integrity. Real-time monitoring of membrane performance, based on removing virus-sized particles, is a priority for the water industry to maximise asset life and meet increased demand for safe and high-quality water. Materials scientists, electrochemists, and specialists in water management and reuse aim to harness advances in nanostructured transducers and electrochemical protocols to develop online performance-monitoring technology. This project is expected to improve water treatment processes, removing viruses and reducing the risks and uncertainties of water recycling.Read moreRead less
Complex nano-systems for highly selective imaging and targeting of cells. The aim of the project is to design multi-functional nanoparticles that can be tracked by multiple bio-imaging techniques, such as magnetic resonance imaging (MRI) and positron emission tomography imaging. The nanoparticles are designed to be targetable to specific cell populations and capable of delivering drugs. The project plans to concentrate the MRI-active gadolinium into nanoparticles to generate enhanced images, and ....Complex nano-systems for highly selective imaging and targeting of cells. The aim of the project is to design multi-functional nanoparticles that can be tracked by multiple bio-imaging techniques, such as magnetic resonance imaging (MRI) and positron emission tomography imaging. The nanoparticles are designed to be targetable to specific cell populations and capable of delivering drugs. The project plans to concentrate the MRI-active gadolinium into nanoparticles to generate enhanced images, and to combine this with other imaging modalities to facilitate tracking and sensitivity. Expected outcomes would enable a new approach to extremely accurate and sensitive imaging of tumours to enable the imaging of much smaller tumours than currently possible. This would allow early therapeutic intervention. The nanoparticles are also designed to deliver a therapeutic payload to specific locations, avoiding systemic delivery of toxic anticancer drugs.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC170100016
Funder
Australian Research Council
Funding Amount
$3,123,492.00
Summary
ARC Training Centre for Personalised Therapeutics Technologies. The ARC Training Centre for Personalised Therapeutics Technologies aims to create and develop the skills and technology to benefit from the transformative impacts that cell/organ-on-a-chip technology will have on the medtech/pharma industries. By combining microfluidics-based/real-time technologies with personalised medicine the Training Centre will provide industry growth opportunities through improved screening of potential therap ....ARC Training Centre for Personalised Therapeutics Technologies. The ARC Training Centre for Personalised Therapeutics Technologies aims to create and develop the skills and technology to benefit from the transformative impacts that cell/organ-on-a-chip technology will have on the medtech/pharma industries. By combining microfluidics-based/real-time technologies with personalised medicine the Training Centre will provide industry growth opportunities through improved screening of potential therapeutics. The use of an individual patient’s cellular and molecular research findings will ultimately enable personalised diagnostic and therapeutic decisions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100177
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
National Live Cell Scanning Platform for Nanoparticle Tracking. National live cell scanning platform for nanoparticle tracking: The aim of the project is to establish a multi-disciplinary, multi-user, self-correlated scanning facility to reach a new level of temporal and spatial precision for real-time tracking and quantification of biomolecules and nanoparticles within large populations of living cells. The facility will consist of a live-cell spinning-disc confocal microscope, a correlated bio ....National Live Cell Scanning Platform for Nanoparticle Tracking. National live cell scanning platform for nanoparticle tracking: The aim of the project is to establish a multi-disciplinary, multi-user, self-correlated scanning facility to reach a new level of temporal and spatial precision for real-time tracking and quantification of biomolecules and nanoparticles within large populations of living cells. The facility will consist of a live-cell spinning-disc confocal microscope, a correlated biological atomic force microscope, and remote access facilities. It is expected that with superior optical characterisation and mechanical manipulation, the automated orthogonal scanning facility will open new avenues to reveal unprecedented information from biological and pathological processes. The collaborative facility will support world-class researchers in the multi-disciplinary areas of physical, material and life sciences, placing Australia at the forefront of nanoscale biophotonics.Read moreRead less