Plasticity of gastrointestinal vagal afferents. The aim of this project is to identify how leptin modulates specific subtypes of vagal afferent within the gut and the plasticity of this system under different dietary conditions. This proposed project will substantially increase understanding of the interactions between leptin, known to influence food intake, and vagal afferent satiety signals. It will also increase understanding of how these interactions alter in obesity and ultimately provide t ....Plasticity of gastrointestinal vagal afferents. The aim of this project is to identify how leptin modulates specific subtypes of vagal afferent within the gut and the plasticity of this system under different dietary conditions. This proposed project will substantially increase understanding of the interactions between leptin, known to influence food intake, and vagal afferent satiety signals. It will also increase understanding of how these interactions alter in obesity and ultimately provide targets and/or concepts for the pharmacotherapy of obesity.Read moreRead less
Central pathways regulating visceral pain. This project aims to investigate the neural pathways within the spinal cord and brain processing colorectal pain perception. The project aims to identify the spinal cord neurons relaying colorectal signalling into the brain and the influence of descending modulation from the brainstem upon these pathways. The outcomes will greatly benefit fundamental understanding of the central pathways processing visceral pain.
Cellular bases of enteric neural circuitry underlying gut propulsion. This project aims to investigate the neural bases of behaviour in the mammalian gut. The Enteric Nervous System (ENS) plays a critical role in the propulsion of intestinal contents. This project expects to establish how specific functional classes of enteric neurons control propulsion along the gut. By recording the simultaneous neural activity from hundreds of different functional classes of enteric nerve cells simultaneously ....Cellular bases of enteric neural circuitry underlying gut propulsion. This project aims to investigate the neural bases of behaviour in the mammalian gut. The Enteric Nervous System (ENS) plays a critical role in the propulsion of intestinal contents. This project expects to establish how specific functional classes of enteric neurons control propulsion along the gut. By recording the simultaneous neural activity from hundreds of different functional classes of enteric nerve cells simultaneously, whilst recording intestinal muscle electrical activity and the movements of the gut wall, the project expects to identify which enteric neurochemical classes of neurons generate specific motor patterns along the intestine.Read moreRead less
Toll Like Receptor signalling as a mediator of sex differences in pain, opioid and alcohol action. Brain immunology will be examined in this project to see if the signalling of a receptor called Toll Like Receptor 4 can explain sex differences in pain, and the action of pain killers and alcohol. These findings will have significant implications on the understanding of male and female brains, and will assist in the design of new drugs to treat brain and spinal cord diseases.
Understanding and Modelling Insect Motion Vision. The interdisciplinary project proposed will offer a stimulating environment for research/training into computational neuroscience, an attractive area for aspiring scientists. We have already demonstrated the feasibility of transferring physiology into applications, and expect this project to deliver functional motion vision models and devices. Our proposed work will have an impact beyond the advancement of neuro-physiology as knowledge gained is ....Understanding and Modelling Insect Motion Vision. The interdisciplinary project proposed will offer a stimulating environment for research/training into computational neuroscience, an attractive area for aspiring scientists. We have already demonstrated the feasibility of transferring physiology into applications, and expect this project to deliver functional motion vision models and devices. Our proposed work will have an impact beyond the advancement of neuro-physiology as knowledge gained is applicable in a range of areas, with applications in miniature unmanned vehicles and collision avoidance detectors in defence and civilian roles. Our project could also assist in the development of artificial intelligence and as a basis for designing implantable artificial eyes.Read moreRead less
Ultradian rhythms in basal metabolism; relationship to thermoregulation, cardiovascular function and behavioural arousal. Results from this project will be of basic theoretical biological importance, and may well provide a foundation for understanding basal metabolic regulation and its link with cardiovascular function. Our findings may provide a new foundation for discovering strategies that alter basal metabolic rate in a manner that improves health and reduces the incidence of obesity related ....Ultradian rhythms in basal metabolism; relationship to thermoregulation, cardiovascular function and behavioural arousal. Results from this project will be of basic theoretical biological importance, and may well provide a foundation for understanding basal metabolic regulation and its link with cardiovascular function. Our findings may provide a new foundation for discovering strategies that alter basal metabolic rate in a manner that improves health and reduces the incidence of obesity related disease such as heart attack and stroke. Thus this research proposal is of special relevance to National Research Priority 2: Promoting and Maintaining Good Health. Obesity and obesity-related medical conditions particularly affect older people, so that our research is also highly relevant to National Research Priority 2 sub-areas: Ageing well, Ageing productively.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100223
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Characterisation of visceral afferent spinal cord pathways. Sensory nerves in the gut wall are key mediators of chronic visceral pain. This project will characterise how sensory nerves supplying the bowel connect to the spinal cord and the spinal circuits mediating pain perception, providing information to identify sensory pathways underlying visceral pain.
How does timing affect mammalian brain development and evolution? This project aims to generate fundamental knowledge on the origin of diversity in mammalian brain circuits by studying development of marsupials and rodents. The expected outcome is to elucidate how differences in the timing, rate and sequence of development of gene expression, cell differentiation and circuit formation can relate to the origin of key evolutionary innovations in the mammalian brain. The significance of understandi ....How does timing affect mammalian brain development and evolution? This project aims to generate fundamental knowledge on the origin of diversity in mammalian brain circuits by studying development of marsupials and rodents. The expected outcome is to elucidate how differences in the timing, rate and sequence of development of gene expression, cell differentiation and circuit formation can relate to the origin of key evolutionary innovations in the mammalian brain. The significance of understanding the dynamics of developmental systems that shape complex brain traits includes establishing new developmental paradigms in evolutionary theory, generating new tools to investigate and manipulate brain gene expression in vivo, and the potential discovery of the causes of neurodevelopmental dysfunction.Read moreRead less
Proteomic analysis of central nervous system inflammation in multiple sclerosis. This project aims to identify new therapeutic targets and diagnostics for Multiple Sclerosis (MS) the most common neurological disease in young adults. The estimated economic burden of this disease in Australia is around $2 billion per annum. There is also a large social cost to take into account. In spite of a great deal of research, current therapies are limited. We expect that this this research will: lead to n ....Proteomic analysis of central nervous system inflammation in multiple sclerosis. This project aims to identify new therapeutic targets and diagnostics for Multiple Sclerosis (MS) the most common neurological disease in young adults. The estimated economic burden of this disease in Australia is around $2 billion per annum. There is also a large social cost to take into account. In spite of a great deal of research, current therapies are limited. We expect that this this research will: lead to new therapies and better diagnostics, which will reduce the financial and human cost of this disease; generate IP with subsequent economic benefits and; expand proteomics technologies which will have flow on effects including economic benefits and benefits to a wide range of basic research. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100174
Funder
Australian Research Council
Funding Amount
$380,000.00
Summary
Development of a digital Transmission Electron Microscope Facility in Tasmania. Development of a digital transmission electron microscope facility: Transmission electron microscopy is a fundamental tool for the study of biological systems at the ultrastructural level. This project will establish a facility that will be accessible to a range of biological researchers, replacing aged and non-sustainable electron microscopy facilities. The instrument will revitalise cellular research and provide ad ....Development of a digital Transmission Electron Microscope Facility in Tasmania. Development of a digital transmission electron microscope facility: Transmission electron microscopy is a fundamental tool for the study of biological systems at the ultrastructural level. This project will establish a facility that will be accessible to a range of biological researchers, replacing aged and non-sustainable electron microscopy facilities. The instrument will revitalise cellular research and provide additional insights and outcomes related to the study of intracellular features in a diverse range of systems and models. This will add substantially to the knowledge base across a wide range of fields of research, increasing national contributions in the areas of neuroscience, separation science and marine science.Read moreRead less