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
Improving diagnostic accuracy and treatment options for equine PPID. Equine Pituitary Pars Intermedia Dysfunction (PPID) is a common, chronic and potentially life-threatening disease of older horses and ponies. Although a treatment is available, the disease is poorly understood and there are some concerns that the current diagnostic technology is not delivering accurate results. Thus, this project aims to develop a more accurate diagnostic test for PPID, while exploring the relationship between ....Improving diagnostic accuracy and treatment options for equine PPID. Equine Pituitary Pars Intermedia Dysfunction (PPID) is a common, chronic and potentially life-threatening disease of older horses and ponies. Although a treatment is available, the disease is poorly understood and there are some concerns that the current diagnostic technology is not delivering accurate results. Thus, this project aims to develop a more accurate diagnostic test for PPID, while exploring the relationship between PPID and metabolic syndrome, to generate new insights into the cause and consequences of both diseases. As an added benefit, the project will assist horseracing laboratories to improve their detection methods for peptide doping in younger competition horses.
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Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. This project aims to develop a novel biosensor prototype based on CYBERNOSE® technology to rapidly identify volatile traces of illicit drugs and precursor chemicals in concealed environments. The CYBERNOSE® technology employs sensors using the highly sophisticated and sensitive olfactory receptors of microscopic nematode worms linked to an optoelectronic det ....Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. This project aims to develop a novel biosensor prototype based on CYBERNOSE® technology to rapidly identify volatile traces of illicit drugs and precursor chemicals in concealed environments. The CYBERNOSE® technology employs sensors using the highly sophisticated and sensitive olfactory receptors of microscopic nematode worms linked to an optoelectronic detector. The need for rapid, non-contact screening devices to detect and identify illicit drugs and precursors entering Australia has never been greater. Law enforcement agencies should directly benefit from the capability to more rapidly screen people and cargo, improving efficiency of illicit drug detection and protection of our borders.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH190100021
Funder
Australian Research Council
Funding Amount
$4,999,540.00
Summary
ARC Research Hub to Combat Antimicrobial Resistance. The ARC ITRP Research Hub to Combat Antimicrobial Resistance takes on the global challenge of antimicrobial resistance (AMR) for Australia through a world-first partnership between industry, researchers, and end users. The AMR Hub fosters a pre-commercialisation environment to address both social and laboratory-based preclinical challenges to provide a highly integrated diagnostic, pharmaceutical and end user solution to the problem of AMR. A ....ARC Research Hub to Combat Antimicrobial Resistance. The ARC ITRP Research Hub to Combat Antimicrobial Resistance takes on the global challenge of antimicrobial resistance (AMR) for Australia through a world-first partnership between industry, researchers, and end users. The AMR Hub fosters a pre-commercialisation environment to address both social and laboratory-based preclinical challenges to provide a highly integrated diagnostic, pharmaceutical and end user solution to the problem of AMR. A goal of the Hub is to support the development of new molecular diagnostic technology, improve the processes for identifying potential antibiotic compounds and assess and advise on antimicrobial stewardship with a vision to transform social and health outcomes globally.Read moreRead less
Special Research Initiatives - Grant ID: SR0354588
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Integrated Nanoscale Biosystems Network (INBN). The INBN will integrate high-priority research, already identified by the ARC, in materials nanoscience and engineering with nanoscale biology. The INBN will provide the means to consolidate world-class multidisciplinary Australian research groups in existing Centres of Excellence, including several Federation Fellows, into a nanobiotechnology focus. The significant outcomes of INBN are the critical mass of outstanding researchers in the nanobiosci ....Integrated Nanoscale Biosystems Network (INBN). The INBN will integrate high-priority research, already identified by the ARC, in materials nanoscience and engineering with nanoscale biology. The INBN will provide the means to consolidate world-class multidisciplinary Australian research groups in existing Centres of Excellence, including several Federation Fellows, into a nanobiotechnology focus. The significant outcomes of INBN are the critical mass of outstanding researchers in the nanobiosciences, facilitation of innovative research to produce novel intellectual property and provision of pathways into collaborative research with international scientists and industry, and the training and development of the next generation scientists for this emerging discipline.
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Dimensions of value: Understanding the role and meaning of shell valuables in the Melanesian past and present. Shell valuables are fundamentally important in many Melanesian societies, linking people to each other, the land and their ancestors. Although shell artefacts are frequent in Melanesian archaeological sites, presently it is not possible to discriminate between types and levels of value. Through ethnoarchaeological enquiry in the Solomon Islands and intensive studies of museum ethnograph ....Dimensions of value: Understanding the role and meaning of shell valuables in the Melanesian past and present. Shell valuables are fundamentally important in many Melanesian societies, linking people to each other, the land and their ancestors. Although shell artefacts are frequent in Melanesian archaeological sites, presently it is not possible to discriminate between types and levels of value. Through ethnoarchaeological enquiry in the Solomon Islands and intensive studies of museum ethnographic collections, this project aims to develop tools to allow archaeologists to better interpret the nature of different shell artefacts and the social contexts of their production, use and discard. In doing so, it will enhance understandings of Melanesian societies and their transformations through time.Read moreRead less
The Macquarie PEN Anthology of Australian Literature. The anthology will be a major scholarly work. Its publication will stimulate scholarship in the Humanities. The project will also renew mainstream interest in the scope and sophistication of Australian literature. Many new works will be introduced to Australian readers, to education systems and to literary scholarship. The stand-alone anthology of Indigenous literature will enhance the public profile of Indigenous writers and will provide ....The Macquarie PEN Anthology of Australian Literature. The anthology will be a major scholarly work. Its publication will stimulate scholarship in the Humanities. The project will also renew mainstream interest in the scope and sophistication of Australian literature. Many new works will be introduced to Australian readers, to education systems and to literary scholarship. The stand-alone anthology of Indigenous literature will enhance the public profile of Indigenous writers and will provide a vehicle for the representation of Indigenous culture and history to non-Indigenous Australians, who are often unable to access such knowledge and voices in print. New critical perspectives will ensure a valuable public resource, and understandings of Australian society will be enriched.Read moreRead less
Exploiting the self-assembly of hydrophobin proteins to engineer functional nanostructuring surfaces. There is an increasing world-wide demand for advanced nano-biomaterials with novel properties. We will use natural hydrophobin proteins to coat nanodevices and make them more compatible with biological systems. Hydrophobin coatings will be applicable to biosensors, medical devices, diagnostics and drug delivery systems. The research will lead to an understanding of the basic mechanisms of protei ....Exploiting the self-assembly of hydrophobin proteins to engineer functional nanostructuring surfaces. There is an increasing world-wide demand for advanced nano-biomaterials with novel properties. We will use natural hydrophobin proteins to coat nanodevices and make them more compatible with biological systems. Hydrophobin coatings will be applicable to biosensors, medical devices, diagnostics and drug delivery systems. The research will lead to an understanding of the basic mechanisms of protein self-assembly and will have application outcomes that contribute to Australia being an important player in the field of nanotechnology. This is critical for Australia's long term competitiveness and productivity in and beyond the 21st century.Read moreRead less