Investigating Linguistic Factors Associated with Stuttering in Cantonese. The aim of this research is to gain new knowledge about the cause of stuttering. The project is a collaboration between experts in stuttering in Australia and Hong Kong. Despite decades of study, the cause of stuttering is still not well understood. Research in English has suggested that changes in emphasis from syllable to syllable can trigger individual moments of stuttering. However, Cantonese is very different from Eng ....Investigating Linguistic Factors Associated with Stuttering in Cantonese. The aim of this research is to gain new knowledge about the cause of stuttering. The project is a collaboration between experts in stuttering in Australia and Hong Kong. Despite decades of study, the cause of stuttering is still not well understood. Research in English has suggested that changes in emphasis from syllable to syllable can trigger individual moments of stuttering. However, Cantonese is very different from English, being a tonal and syllabic language, and uncovering the linguistic triggers of stuttering in Cantonese will yield new insight into the complex causality of this disabling condition.Read moreRead less
Memory and the temporal lobes. This project will use brain imaging techniques to investigate how humans perceive, combine and access stored knowledge about the world via different senses. This information will not only provide information on normal brain processes, but will also provide vital data on what happens to memory if certain regions of the brain become damaged.
Examining the complexity of communication processes across transition points from the emergency department to improve medication safety. Problems in communication contribute significantly to adverse events that lead to serious harm for Australian consumers. Recent data show medication errors account for over 25% of all adverse events, while over 50% of consumers who move across transition points have medication errors relating to their treatment regimen. Financial costs from adverse events are e ....Examining the complexity of communication processes across transition points from the emergency department to improve medication safety. Problems in communication contribute significantly to adverse events that lead to serious harm for Australian consumers. Recent data show medication errors account for over 25% of all adverse events, while over 50% of consumers who move across transition points have medication errors relating to their treatment regimen. Financial costs from adverse events are estimated at around $A2billion/year, which are likely to increase with further complexities involving consumer care. This study will result in new knowledge about communication processes to inform the development of reporting methods and strategies, which positively influence the practices of health professionals in managing medications as consumers move across different environments.Read moreRead less
The early communicative environment prior to and following cochlear implants: impact on children's early communicative and cognitive development. This research with children with cochlear implants will examine the effect on language development of being in an oral environment or one that also includes sign language. The outcomes will provide information for parents and professionals enabling informed decision about the management of the children to promote the best possible outcomes.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100177
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A flexible high throughput analytical system for psychopharmacology and drug discovery. A sensitive new liquid chromatography mass spectrometer will enable a team of leading researchers to detect drugs of abuse and therapeutic drugs in the brain and body as well as levels of hormones, peptides and neurotransmitters. This will enhance a large number of projects examining new treatments for addictive disorders and mental illness.
The Material Science of Biomimetic Soft Network Composites. Nature combines stiff and strong collagen fibres intertwined within a weak polymer matrix of proteoglycans into soft tissues with outstanding mechanical durability and biological properties. We converge a biomimetic design strategy inspired in the architecture of natural soft tissues and a novel additive manufacturing technology termed melt electrowriting (MEW) to manufacture advanced biomimetic soft network composites (BSNC). The SNCs ....The Material Science of Biomimetic Soft Network Composites. Nature combines stiff and strong collagen fibres intertwined within a weak polymer matrix of proteoglycans into soft tissues with outstanding mechanical durability and biological properties. We converge a biomimetic design strategy inspired in the architecture of natural soft tissues and a novel additive manufacturing technology termed melt electrowriting (MEW) to manufacture advanced biomimetic soft network composites (BSNC). The SNCs are composed of a weak polymer matrix and a MEW reinforcing fibrous phase printed at the nanometre scale, containing patterns mimicking the natural tissue architectures. Advanced computational tools are applied for the rational design of the SNC while reducing costs and times associated to experimental work.Read moreRead less
Regulation of lung immune-epithelial networks sensing environmental change. This study aims to uncover how lung epithelial cells engage with immune cells and determine their cellular and molecular wiring to ensure homeostatic maintenance and essential repair processes of lung tissues. Maintenance of lung epithelial-immune networks is essential to maintain normal lung tissue structure and function, and to induce immune responses to protect against microbial challenges or inhaled potentially toxic ....Regulation of lung immune-epithelial networks sensing environmental change. This study aims to uncover how lung epithelial cells engage with immune cells and determine their cellular and molecular wiring to ensure homeostatic maintenance and essential repair processes of lung tissues. Maintenance of lung epithelial-immune networks is essential to maintain normal lung tissue structure and function, and to induce immune responses to protect against microbial challenges or inhaled potentially toxic substances. Understanding this molecular program of epithelial-immune cell-mediated sensing/repair will be essential to understand how tissue-repair processes can be driven in the lung, an organ critical for respiration and thus life.Read moreRead less
Coupling biophotonic modalities with machine based recognition systems for disease diagnosis. This project will develop new ways to diagnose canine cancer, malaria and atherosclerosis using infrared-based technology and sophisticated pattern recognition techniques in the hope to discover infrared biomarkers that will lead to early diagnosis of the disease and ultimately save lives.
Benefits of NatraGuard (a milk-derived protein) on skeletal muscle mass and development: in vivo and in vitro investigations in mice. The capacity of NatraGuard (derived from milk) to increase the mass of skeletal muscles will be scientifically investigated; in vivo using growing and adult mice and with muscle cells in culture to identify the novel mechanism of this hypertrophic effect. This research has many potential clinical, agricultural and commercial applications.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347727
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Computational infrastructure for high-throughput genome bioinformatics. We propose a high-performance computing and web facility for genome bioinformatics. It will provide a common software development environment in support of molecular biosciences, systems biology and complex systems modelling at the Institute for Molecular Bioscience at University of Queensland, and at Queensland University of Technology. The platform will support Australia's first genome-scale bioinformatics research website ....Computational infrastructure for high-throughput genome bioinformatics. We propose a high-performance computing and web facility for genome bioinformatics. It will provide a common software development environment in support of molecular biosciences, systems biology and complex systems modelling at the Institute for Molecular Bioscience at University of Queensland, and at Queensland University of Technology. The platform will support Australia's first genome-scale bioinformatics research website, with unique software and mirrors of the IBM Biological Pattern Discovery, UC San Diego MEME/MetaMEME/MAST, and NGI comparative genomics websites. Australian/NZ researchers will access the facility at no cost for high-throughput use of unique software, website mirrors and other important tools for genome bioinformatics.Read moreRead less