Beyond Microarrays: Nano-Scaled Devices for High Throughput Biomolecular Sensing. Current developments in Nanoscience and Nanotechnology hold many promises in terms of revolutionising our industrial base, transforming biology, medical science and practice. This project strives to achieve some of these aims by, for the first time, building and testing nano-scaled devices with the capability to 'read' massive amounts of biological information. With the recent completion of the Human Genome proje ....Beyond Microarrays: Nano-Scaled Devices for High Throughput Biomolecular Sensing. Current developments in Nanoscience and Nanotechnology hold many promises in terms of revolutionising our industrial base, transforming biology, medical science and practice. This project strives to achieve some of these aims by, for the first time, building and testing nano-scaled devices with the capability to 'read' massive amounts of biological information. With the recent completion of the Human Genome project, major opportunities exist to provide spectacular advances in human health care (eg, via personalised medicine) provided that appropriate high-throughput biological reading devices can be developed. In developing such devices, this project also aims to substantially catalyse the Australian Nanotechnology/Biotechnology industry.Read moreRead less
Graded Biomaterial for Articular Cartilage Replacement. Osteoarthritis is a major health and economical burden on the Australian community which can be addressed in part by providing a viable option for effective clinical treatment. 34% of people over the age of 50 suffer from osteoarthritis, predominantly the knee. The development of a biomaterial to enable repair of articular cartilage through minor surgical procedures will release resources at point of care. Current biomaterial options are st ....Graded Biomaterial for Articular Cartilage Replacement. Osteoarthritis is a major health and economical burden on the Australian community which can be addressed in part by providing a viable option for effective clinical treatment. 34% of people over the age of 50 suffer from osteoarthritis, predominantly the knee. The development of a biomaterial to enable repair of articular cartilage through minor surgical procedures will release resources at point of care. Current biomaterial options are still in infancy and an Australian based product would benefit the Australian economy as well as Australia's international standing within the biomaterials community.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775592
Funder
Australian Research Council
Funding Amount
$388,000.00
Summary
A High Resolution Analytical Scanning Electron Microscope for South-East Queensland. Scanning electron microscopy is the major visualization tool for a diverse range of research disciplines. This new generation of instrument will be able to image features close to atomic resolution and obtain quantitative analytical information from regions only a few atoms across. Because of the nature of the way the electron beam is produced, the new instrument will be able to examine particularly sensitive ma ....A High Resolution Analytical Scanning Electron Microscope for South-East Queensland. Scanning electron microscopy is the major visualization tool for a diverse range of research disciplines. This new generation of instrument will be able to image features close to atomic resolution and obtain quantitative analytical information from regions only a few atoms across. Because of the nature of the way the electron beam is produced, the new instrument will be able to examine particularly sensitive materials, such as soft bio-materials, without any loss in resolving power. This machine will be unique in Australia and be available to researchers from diverse fields of study working towards building and transforming Australian Industries and underpinning scientific discovery in nanotechnology, materials science and bioengineering.Read moreRead less
DEVELOPMENT OF A NOVEL BIOMATERIAL FOR BONE TISSUE ENGINEERING. Tissue engineering of bone is emerging as a viable therapy for treating large defects in load-bearing bone. We wish to develop methods for combining novel heparan sulphate molecules (known to deliver growth factors to cell surfaces and thereby cause changes in bone cell phenotype) with load-bearing, macro-porous, biodegradable mineral/polymer biomaterials. Through the study of release profiles, protein adsorption and cell responses ....DEVELOPMENT OF A NOVEL BIOMATERIAL FOR BONE TISSUE ENGINEERING. Tissue engineering of bone is emerging as a viable therapy for treating large defects in load-bearing bone. We wish to develop methods for combining novel heparan sulphate molecules (known to deliver growth factors to cell surfaces and thereby cause changes in bone cell phenotype) with load-bearing, macro-porous, biodegradable mineral/polymer biomaterials. Through the study of release profiles, protein adsorption and cell responses to these derivatised biomaterials, a novel approach to bone replacement materials can be developed.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561247
Funder
Australian Research Council
Funding Amount
$168,810.00
Summary
An advanced scanning probe microscopy facility. The development of advanced materials with high performance and functionality for applications such as medical implants, solar energy, drug delivery and gas separation is facilitated by the availability of sophisticated characterisation methods. Scanning probe microscopy (SPM) has become an essential tool in materials science, biomaterials development, nanotechnology and biology. The aim of this proposal is to provide a high performance SPM system ....An advanced scanning probe microscopy facility. The development of advanced materials with high performance and functionality for applications such as medical implants, solar energy, drug delivery and gas separation is facilitated by the availability of sophisticated characterisation methods. Scanning probe microscopy (SPM) has become an essential tool in materials science, biomaterials development, nanotechnology and biology. The aim of this proposal is to provide a high performance SPM system as an enabling technology to advance the excellent research being performed at the collaborating universities.Read moreRead less