Epigenetic and neurobehavioural changes in a new mouse model of foetal alcohol spectrum disorders. Foetal alcohol syndrome involves changes in growth, skull structure, central nervous system defects and intellectual disabilities. This project will use a mouse model to study the underlying causes of this disorder, focussing on brain structure and function, and aim to identify markers that can be used for early diagnosis and treatment.
Understanding the mechanisms of GABA type-A receptor activation and drug modulation. There is currently little understanding of how sedative and anxiolytic drugs, including valium, interact with their receptors in the brain. This project will dramatically increase our understanding of how these receptors work and how drugs affect their activity. This will provide new insights into drug discovery and design.
Discovery Early Career Researcher Award - Grant ID: DE120101743
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Estrogens and schizophrenia: animal studies. The female hormone, estrogen, plays a role on the reproductive system but is also involved in neurological and psychiatric disorders. Estrogen has been shown to be protective against schizophrenia, but the mechanism underlying this effect is unknown. This project aims to elucidate the brain mechanisms by which estrogens exert their action.
Understanding the generation of hypothalamic sleep neurons. This Project aims to investigate the mechanisms controlling the formation of the sleep neurons in the hypothalamus. We all sleep, and normal sleep-wake cycles play a central role in our biology. The functional role of these sleep neurons in the mature brain are well established. However, how the neurons are generated during development is very poorly defined. This project aims to address this critical knowledge gap, and will greatly inc ....Understanding the generation of hypothalamic sleep neurons. This Project aims to investigate the mechanisms controlling the formation of the sleep neurons in the hypothalamus. We all sleep, and normal sleep-wake cycles play a central role in our biology. The functional role of these sleep neurons in the mature brain are well established. However, how the neurons are generated during development is very poorly defined. This project aims to address this critical knowledge gap, and will greatly increase our understanding of how the development of this critical aspect of organismal function is orchestrated during development. This project will also develop bioinformatics tools with broad utility within the biosciences field and enhance the capacity for interdisciplinary international collaborations.Read moreRead less
Structural-functional connectivity in the brain. This project aims to develop magnetic resonance imaging analysis methods to non-invasively study brain connectivity. Recent advances in imaging can comprehensively describe the brain’s complex network of functional and structural connections (the brain ‘connectome’). This project will simultaneously investigate structural and functional connectivity, and characterise the dynamic properties of the connectome using graph-theoretic approaches. This p ....Structural-functional connectivity in the brain. This project aims to develop magnetic resonance imaging analysis methods to non-invasively study brain connectivity. Recent advances in imaging can comprehensively describe the brain’s complex network of functional and structural connections (the brain ‘connectome’). This project will simultaneously investigate structural and functional connectivity, and characterise the dynamic properties of the connectome using graph-theoretic approaches. This project should give neuroscientists computational tools to comprehensively map the network architecture of the human brain.Read moreRead less
Determining the role of neuronal nicotinic acetylcholine receptor subunits in the development of addictive behaviours. The economic and health burden of substance abuse in Australia exceeds $31.5 billion and there are currently few treatment options. Nicotinic receptors (nAChRs) are a common target for the interaction of alcohol and nicotine in the brain. This project aims to determine the role of nAChRs in the development of addiction to alcohol and nicotine.
Improving Productivity in Emergency Service Personnel. Emergency service personnel experience marked levels of lost productivity, absenteeism, early retirements, and compensation claims as a result of stress reactions. This project aims to improve productivity and reduce compensation costs in emergency service organisations by evaluating a program that reduces stress reactions and increases cognitive functioning in police, firefighters, and paramedics in NSW. An individual program will be admini ....Improving Productivity in Emergency Service Personnel. Emergency service personnel experience marked levels of lost productivity, absenteeism, early retirements, and compensation claims as a result of stress reactions. This project aims to improve productivity and reduce compensation costs in emergency service organisations by evaluating a program that reduces stress reactions and increases cognitive functioning in police, firefighters, and paramedics in NSW. An individual program will be administered to 120 emergency service personnel who have difficulty maintaining their work duties because of stress reactions. Expected outcomes will be reduction in absenteeism, improved productivity, and reduced costs to insurers.
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Engineered extrasynaptic GABAA receptors: Towards novel analgesics. Engineered extrasynaptic GABAA receptors: Towards novel analgesics. This project intends to alleviate neuropathic pain by developing drugs and good tool molecules targeting GABA-A receptors. About 20% of Australian adults suffer from neuropathic pain. Delta-containing GABA-A receptors represent attractive and novel targets for developing non-opioid analgesics. However, no drugs or good tool molecules target these receptors. This ....Engineered extrasynaptic GABAA receptors: Towards novel analgesics. Engineered extrasynaptic GABAA receptors: Towards novel analgesics. This project intends to alleviate neuropathic pain by developing drugs and good tool molecules targeting GABA-A receptors. About 20% of Australian adults suffer from neuropathic pain. Delta-containing GABA-A receptors represent attractive and novel targets for developing non-opioid analgesics. However, no drugs or good tool molecules target these receptors. This project intends to develop the needed enabling technologies, including screening assays, tool molecules and radioligands; and perform brain slice electrophysiology to confirm activity in neuronal cells. This project is expected to benefit the research community and future rational drug-discovery endeavours for drugs that modulate delta-containing receptors.Read moreRead less
Mapping and manipulating fear prediction errors. This project plans to use Pavlovian conditioning to map and then manipulate the brain architecture of fear prediction errors. It asks fundamental questions about how Pavlovian conditioning and associative learning enable us to learn to fear, to reduce fear, and to respond appropriately to danger. It aims to answer these questions with behavioural sophistication and previously unobtainable cell-type, temporal, and circuit-level precision. It aims t ....Mapping and manipulating fear prediction errors. This project plans to use Pavlovian conditioning to map and then manipulate the brain architecture of fear prediction errors. It asks fundamental questions about how Pavlovian conditioning and associative learning enable us to learn to fear, to reduce fear, and to respond appropriately to danger. It aims to answer these questions with behavioural sophistication and previously unobtainable cell-type, temporal, and circuit-level precision. It aims to provide new insights into the mechanisms of Pavlovian conditioning, associative learning, and emotion: insights that are necessary to shape the next generation of theoretical accounts and practical applications.Read moreRead less
How the brain parses danger signals. This project aims to use Pavlovian conditioning to map and manipulate the brain circuitry for attentional selection of danger signals. It will investigate how we attend to and learn about sources of danger in the world with behavioural sophistication and previously unobtainable cell-type, temporal and circuit level precision. It aims to provide insights into the mechanisms of Pavlovian conditioning, associative learning, and emotion: insights that are necessa ....How the brain parses danger signals. This project aims to use Pavlovian conditioning to map and manipulate the brain circuitry for attentional selection of danger signals. It will investigate how we attend to and learn about sources of danger in the world with behavioural sophistication and previously unobtainable cell-type, temporal and circuit level precision. It aims to provide insights into the mechanisms of Pavlovian conditioning, associative learning, and emotion: insights that are necessary to shape the next generation of theoretical accounts and practical applications.Read moreRead less