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
Evaluative learning: do all roads lead to Rome? This project aims to enhance understanding of how likes and dislikes are acquired and changed across a range of different settings. Evaluative learning, the acquisition and change of likes and dislikes, is ubiquitous and occurs in situations that range from trivial to traumatic. However, it is unknown whether evaluative learning in these different situations is mediated by a single or distinct learning mechanisms. Answering this question is critica ....Evaluative learning: do all roads lead to Rome? This project aims to enhance understanding of how likes and dislikes are acquired and changed across a range of different settings. Evaluative learning, the acquisition and change of likes and dislikes, is ubiquitous and occurs in situations that range from trivial to traumatic. However, it is unknown whether evaluative learning in these different situations is mediated by a single or distinct learning mechanisms. Answering this question is critically important for emotion science and the design of effective interventions for anxiety disorders and public health campaigns. The expected outcomes from this project will provide significant benefits, such as creating new knowledge to assist in applied areas ranging from the design of public health messages to the treatment for anxiety.Read moreRead less
A framework for adapting child interview protocols in complex cases. This project aims to develop–in collaboration with Aboriginal and other industry co-researchers–a ‘how to’ framework for effectively adapting standard child abuse interview protocols to accommodate the complexities that create barriers to disclosure. Complex cases necessitate interview adaption, but it requires systematic guidance and an interdisciplinary, practitioner-driven approach to be effective. This innovative framework ....A framework for adapting child interview protocols in complex cases. This project aims to develop–in collaboration with Aboriginal and other industry co-researchers–a ‘how to’ framework for effectively adapting standard child abuse interview protocols to accommodate the complexities that create barriers to disclosure. Complex cases necessitate interview adaption, but it requires systematic guidance and an interdisciplinary, practitioner-driven approach to be effective. This innovative framework is expected to have long-term benefits for services that support children’s well-being, through improvements in the quality of evidence underpinning decisions. By enhancing interviewer capability, there will also be fewer cases prematurely exiting the justice system before forensic interview or investigation.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100159
Funder
Australian Research Council
Funding Amount
$3,330,000.00
Summary
From a descriptive to a predictive understanding of the human microbiome. Microorganisms inhabit every imaginable environment on Earth. Despite advances in characterising microbial communities, our understanding is largely descriptive and a detailed appreciation of their complexity eludes us. This Laureate project aims to transform microbial ecology into a predictive science, through intensive investigation of the human gut microbiome as a model ecosystem. Major challenges in microbiology are ex ....From a descriptive to a predictive understanding of the human microbiome. Microorganisms inhabit every imaginable environment on Earth. Despite advances in characterising microbial communities, our understanding is largely descriptive and a detailed appreciation of their complexity eludes us. This Laureate project aims to transform microbial ecology into a predictive science, through intensive investigation of the human gut microbiome as a model ecosystem. Major challenges in microbiology are expected to be overcome, with new knowledge for predicting how microorganisms influence, and are influenced by, their environment. Ultimately this knowledge can help us manipulate microbial communities in diverse ecosystems to our advantage – protecting the planet’s natural assets, and improving agriculture and human health.Read moreRead less
The production, use and effect of social work research. This project aims to reform social work research to improve the quality and effectiveness of human services. The human services industry is vital to many people’s quality of life, but lacks innovation and struggles to demonstrate its effectiveness. Crucially for social work, research expands thinking about how to respond to social disadvantage. This project intends to examine the scope and quality of Australian social work research in child ....The production, use and effect of social work research. This project aims to reform social work research to improve the quality and effectiveness of human services. The human services industry is vital to many people’s quality of life, but lacks innovation and struggles to demonstrate its effectiveness. Crucially for social work, research expands thinking about how to respond to social disadvantage. This project intends to examine the scope and quality of Australian social work research in child protection, disability services, and aged care; assess the use of this research to the human services sector and its effect on generating innovation; and develop strategies to advance the production, uptake, and effect of social work research.Read moreRead less
A theoretical framework for elder abuse to guide social work practice. This project aims to develop a theoretical framework to assist health social workers to effectively assess and intervene in elder abuse. Social workers have responsibility in health settings to respond when abuse is noticed. Elder abuse damages trust, increases health costs and hastens death. Improving practice to assist older people who are abused relies on the knowledge, experiences and wishes of older people, social worker ....A theoretical framework for elder abuse to guide social work practice. This project aims to develop a theoretical framework to assist health social workers to effectively assess and intervene in elder abuse. Social workers have responsibility in health settings to respond when abuse is noticed. Elder abuse damages trust, increases health costs and hastens death. Improving practice to assist older people who are abused relies on the knowledge, experiences and wishes of older people, social workers and international experts to provide an effective and efficient theoretical model to address elder abuse.
A new framework will allow practitioners to assist vulnerable older people and improve the quality of their lives. Further, this information will assist the government to address elder abuse in Australia.Read moreRead less
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
Understanding bone structure evolution using machine learning. Bone remodeling is the ancient process of bone resorption and formation that optimises material properties and has led to evolution of terrestrial vertebrates. To date it is not understood how remodeling achieves tuning of bone material. This proposal aims to develop a machine learning based approach, linking computational modeling and imaging to address this problem. Intended outcomes are development of a multiscale model of remodel ....Understanding bone structure evolution using machine learning. Bone remodeling is the ancient process of bone resorption and formation that optimises material properties and has led to evolution of terrestrial vertebrates. To date it is not understood how remodeling achieves tuning of bone material. This proposal aims to develop a machine learning based approach, linking computational modeling and imaging to address this problem. Intended outcomes are development of a multiscale model of remodeling and machine learning algorithms for image analysis. This approach will help establish a structural-functional link between remodeling and bone material optimisation which ultimately provides significant benefits for bone tissue engineering, fracture healing and improved therapies for osteoporosis. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100128
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Engineering microenvironments to regulate osteocyte 3D networks in vitro. Most knowledge of bone is based on only a fraction of cells found in bone because the majority of cells in our bones (called osteocyte cell networks) cannot easily be grown or studied outside the body. This results in the inability to understand how the bone organ functions. Using bioinspired engineering, this project will use advanced biomaterials to biofabricate, for the first time, osteocyte cell networks in vitro. By u ....Engineering microenvironments to regulate osteocyte 3D networks in vitro. Most knowledge of bone is based on only a fraction of cells found in bone because the majority of cells in our bones (called osteocyte cell networks) cannot easily be grown or studied outside the body. This results in the inability to understand how the bone organ functions. Using bioinspired engineering, this project will use advanced biomaterials to biofabricate, for the first time, osteocyte cell networks in vitro. By unravelling how they are formed and controlled by manipulating their microenvironment, we will discover how different types of bones are formed. The benefits will be a valuable tool for the bone research community, allowing unresolved questions to be addressed in the future, such as how bone forms, repairs, and remodels.Read moreRead less
Tissue Bio-physicochemical Quantification Using Magnetic Resonance Imaging. This project aims to develop novel magnetic resonance imaging methods to investigate tissue structure and function. Current MRI technologies use standard water-based contrast mechanisms to generate images with limited tissue information. In contrast, this project expects to provide a non-invasive, ultra-high-resolution MRI technology that measures the electrical, magnetic, and chemical signals generated from the human bo ....Tissue Bio-physicochemical Quantification Using Magnetic Resonance Imaging. This project aims to develop novel magnetic resonance imaging methods to investigate tissue structure and function. Current MRI technologies use standard water-based contrast mechanisms to generate images with limited tissue information. In contrast, this project expects to provide a non-invasive, ultra-high-resolution MRI technology that measures the electrical, magnetic, and chemical signals generated from the human body. Thus, the new imaging methods can probe deeper biological functionality while examining tissue structure. The potential benefits include: expanding the scope and capabilities of current MRI, facilitating a wide range of imaging-based research and applications, and accelerating knowledge expansion in life science.Read moreRead less