Touch and Tension: Molecular Determinants of Human Mechanosensation . Feelings of touch and muscle tension are initiated by mechanosensory neurons found within the peripheral nervous system. Knowledge of human mechanosensory neurons has predominantly relied on rodent studies because of the limited availability of human tissue, which is not ideal. Our team has developed novel technologies for generating human mechanosensory neurons ‘in the dish’. The major aim of this project is to use human stem ....Touch and Tension: Molecular Determinants of Human Mechanosensation . Feelings of touch and muscle tension are initiated by mechanosensory neurons found within the peripheral nervous system. Knowledge of human mechanosensory neurons has predominantly relied on rodent studies because of the limited availability of human tissue, which is not ideal. Our team has developed novel technologies for generating human mechanosensory neurons ‘in the dish’. The major aim of this project is to use human stem cell-derived mechanosensory neurons as a platform to extensively study their molecular and functional properties. The significant benefits are the advancement of knowledge in the human mechanosensory system, which to date has been lacking, and in the long-term progress commercial development of novel drugs.Read moreRead less
Creating a non-invasive window into the mind. This project aims to create better tools to study the human mind. This project expects to generate new knowledge that can be used to non-invasively image neuronal activity. Expected outcomes include the development of unique new Magnetic Resonance Imaging (MRI) instruments to study neuronal activity in both highly controlled laboratory conditions and in humans, with the spatial and temporal resolution needed to study the neuronal circuitry that drive ....Creating a non-invasive window into the mind. This project aims to create better tools to study the human mind. This project expects to generate new knowledge that can be used to non-invasively image neuronal activity. Expected outcomes include the development of unique new Magnetic Resonance Imaging (MRI) instruments to study neuronal activity in both highly controlled laboratory conditions and in humans, with the spatial and temporal resolution needed to study the neuronal circuitry that drives low and high-level brain functions, i.e., creating a window into the mind. In the future, outcomes from this study could improve our understanding of mental disorders, advance computer brain interface technology, and inspire the next paradigm shift in artificial intelligence.Read moreRead less
Early career teacher induction: Supporting precarious teachers. This project aims to investigate the ways in which Australian induction policies support precariously employed early career teachers to effectively manage student classroom behaviour. This project expects to generate new knowledge of workforce development and induction experiences of early career teachers employed on casual and short-term contracts. Expected outcomes of this project include alternative policy and practice recommenda ....Early career teacher induction: Supporting precarious teachers. This project aims to investigate the ways in which Australian induction policies support precariously employed early career teachers to effectively manage student classroom behaviour. This project expects to generate new knowledge of workforce development and induction experiences of early career teachers employed on casual and short-term contracts. Expected outcomes of this project include alternative policy and practice recommendations to support the transition of insecure replacement teachers within the profession. The benefits of this research include, improving teachers’ classroom management practices; the retention of new teachers; improving teacher workforce development; and building a healthier education system. Read moreRead less
An anti-senescence nanoplatform and its underlying mechanism. The project will bring together complementary expertise and skills by combining biomaterials, cell and molecular biology, and engineering, to develop a novel nano-biomaterial platform for anti-senescence and gain an in-depth understanding of its underlying mechanisms. The underlying mechanisms of senescence remain elusive and bone substitutes with anti-senescence property have not been explored and becoming a growing field of interest ....An anti-senescence nanoplatform and its underlying mechanism. The project will bring together complementary expertise and skills by combining biomaterials, cell and molecular biology, and engineering, to develop a novel nano-biomaterial platform for anti-senescence and gain an in-depth understanding of its underlying mechanisms. The underlying mechanisms of senescence remain elusive and bone substitutes with anti-senescence property have not been explored and becoming a growing field of interest in bone regeneration. The project will develop a well-defined and efficient nanomaterial platform with optimal combination of nano-surface features and chemistry for cell rejuvenation, and it will give unprecedented depth of interdisciplinary understanding of senescence rejuvenation mechanisms.Read moreRead less
Beyond global discourses of data: Storying learning in marginalised schools. Globally, Australian school education is seen as under-performing. Consequently, attention to data, particularly numeric and standardised test data, in schools have become pervasive. This project aims to understand how teachers and educators in schools and school systems actually engage with a broader conception of data for enhanced learning, on a truly global scale, particularly in schools serving struggling communiti ....Beyond global discourses of data: Storying learning in marginalised schools. Globally, Australian school education is seen as under-performing. Consequently, attention to data, particularly numeric and standardised test data, in schools have become pervasive. This project aims to understand how teachers and educators in schools and school systems actually engage with a broader conception of data for enhanced learning, on a truly global scale, particularly in schools serving struggling communities. This project will reveal the myriad ways educators in diverse settings - England, Australia, Singapore and Bangladesh - engage with data. The project will re-conceptualise how data are understood globally, and will provide significant benefits including informing education policy-making and improving teaching practices.Read moreRead less
Investigating the efficacy, complexity and sustainability of teacher change. This project aims to investigate the path from professional development to changes in teaching practices and student achievement. As a randomised controlled trial, this study integrates sophisticated quantitative and qualitative methods, driving innovation in educational research. Expected outcomes include significant insights into how professional development can impact measurably in ways that benefit the ongoing renew ....Investigating the efficacy, complexity and sustainability of teacher change. This project aims to investigate the path from professional development to changes in teaching practices and student achievement. As a randomised controlled trial, this study integrates sophisticated quantitative and qualitative methods, driving innovation in educational research. Expected outcomes include significant insights into how professional development can impact measurably in ways that benefit the ongoing renewal of Australia's teachers to enhance student outcomes. This project will provide evidence to inform teacher development policy and practice in order to enhance student outcomes.Read moreRead less
Equipping Australian teachers today to face AI tomorrow. Applications of Artificial Intelligence (AI) are set to transform society, including how people work and learn. Yet there is very little research about what Australian teachers need to know in order to prepare students to thrive in an AI-rich society and workforce. This study aims to construct a foundational understanding for teaching with and about AI. It will also show how to develop effective networks to empower teachers as active chang ....Equipping Australian teachers today to face AI tomorrow. Applications of Artificial Intelligence (AI) are set to transform society, including how people work and learn. Yet there is very little research about what Australian teachers need to know in order to prepare students to thrive in an AI-rich society and workforce. This study aims to construct a foundational understanding for teaching with and about AI. It will also show how to develop effective networks to empower teachers as active change agents. The expected outcomes will equip teachers with the knowledge and resources to lead the development of Australia’s future AI capability, including through enhanced classroom practices and more creative teacher networks.Read moreRead less
Educating preservice teachers to teach diverse learners. This project aims to investigate links between teacher educators’ reflexive decision making and the preparation of teachers for teaching in socially and culturally diverse Australian classrooms. The project takes a transdisciplinary approach, bridging the fields of epistemic cognition and reflexive decision making, to explore how rigorous teaching can be enacted in socially and culturally diverse classrooms. Expected outcomes include enh ....Educating preservice teachers to teach diverse learners. This project aims to investigate links between teacher educators’ reflexive decision making and the preparation of teachers for teaching in socially and culturally diverse Australian classrooms. The project takes a transdisciplinary approach, bridging the fields of epistemic cognition and reflexive decision making, to explore how rigorous teaching can be enacted in socially and culturally diverse classrooms. Expected outcomes include enhanced capacity of those preparing future teachers for new classroom conditions, which will provide benefits for a quality teaching workforce.Read moreRead less
Building on rural knowledges to unlock the potential of rural students. This project aims to advance understanding of the distinctive knowledges that rural students bring to school and develop teaching practices that build on these rural knowledges to unlock the potential of this significant student population. The project involves collaborating with rural primary schools, teachers, students and communities to identify rural knowledges, study classroom practices in detail, and develop sustainabl ....Building on rural knowledges to unlock the potential of rural students. This project aims to advance understanding of the distinctive knowledges that rural students bring to school and develop teaching practices that build on these rural knowledges to unlock the potential of this significant student population. The project involves collaborating with rural primary schools, teachers, students and communities to identify rural knowledges, study classroom practices in detail, and develop sustainable teaching practices that help students connect rural knowledges and school knowledge. Expected outcomes include a framework of place-based teaching practices and resources that will benefit rural schooling, teacher education, and the education of communities crucial to the nation’s future wealth and welfare.Read moreRead less
Tuning mesenchymal stem cell lifespan, performance, and differentiation. This project aims to fully characterise a unique molecular process that strongly modulates mesenchymal stem cell lifespan and behaviour. This work is significant, as it is expected to reveal new concepts underpinning the mechanistic actions of classical structural proteins. It will also shape a more nuanced understanding of the context-dependent mechanical and biochemical signals that regulate stem cell fate and function. E ....Tuning mesenchymal stem cell lifespan, performance, and differentiation. This project aims to fully characterise a unique molecular process that strongly modulates mesenchymal stem cell lifespan and behaviour. This work is significant, as it is expected to reveal new concepts underpinning the mechanistic actions of classical structural proteins. It will also shape a more nuanced understanding of the context-dependent mechanical and biochemical signals that regulate stem cell fate and function. Expected outcomes include new knowledge surrounding native extracellular matrix and stem cell biology, and the development of strategies to define and tailor stem cell properties. This work is anticipated to drive new technologies that can efficiently and robustly manipulate stem cells for diverse functional applications.Read moreRead less