Australian Laureate Fellowships - Grant ID: FL0992409
Funder
Australian Research Council
Funding Amount
$2,996,243.00
Summary
The neural bases of decision-making. This research focuses on the neural bases of decision making, a general capacity affected by normal ageing, disorders associated with neurodegeneration including dementia, major psychiatric conditions and drug addiction. Changes in the neural systems that result in the cognitive and emotional dissociation reflected in these disorders constitute the highest health, economic and social capital attrition burden to Australia of any disease group, a burden that is ....The neural bases of decision-making. This research focuses on the neural bases of decision making, a general capacity affected by normal ageing, disorders associated with neurodegeneration including dementia, major psychiatric conditions and drug addiction. Changes in the neural systems that result in the cognitive and emotional dissociation reflected in these disorders constitute the highest health, economic and social capital attrition burden to Australia of any disease group, a burden that is only predicted to increase as the population ages. Understanding these changes in neural systems and their specific behavioural effects is, therefore, of critical importance and will ultimately provide new targets for treatment and rehabilitation.Read moreRead less
Rhombomeric Topography of Structures in the Adult Mouse: Evidence from Avian Homologies and Transgenic Mice. The brainstem of birds has been shown to be formed by a line of segments, like carriages of a train. The same arrangement exists in the embryos of mammals, but is hidden in the adult mammalian brain. We will transfer our detailed knowledge of bird brains to make a maps of the brainstem segments in adult mice. We will then test this map with special gene markers which will reveal the occul ....Rhombomeric Topography of Structures in the Adult Mouse: Evidence from Avian Homologies and Transgenic Mice. The brainstem of birds has been shown to be formed by a line of segments, like carriages of a train. The same arrangement exists in the embryos of mammals, but is hidden in the adult mammalian brain. We will transfer our detailed knowledge of bird brains to make a maps of the brainstem segments in adult mice. We will then test this map with special gene markers which will reveal the occult segmental pattern in adult mice. This work will give us a new way of understanding the organisation of brainstem centres that control breathing, cardiovascular functions and emotional states.Read moreRead less
Action-related learning and plasticity in the cortico-striatal network. This project focuses on the neural bases of adaptive behaviour, specifically on the neural processes through which new actions are acquired. This project aims to establish the neural networks involved as well as the locus of the critical cellular plasticity mediating this learning process in the brain.
Special Research Initiatives - Grant ID: SR0566756
Funder
Australian Research Council
Funding Amount
$95,254.00
Summary
Application for funding to develop a software grid for data-sharing associated with the NISAD/LONI Virtual Brain Bank. This project will produce tools to enhance collaboration between researchers at physically disparate locations. It builds on emerging Grid computer network technology to create virtual research communities that permit secure sharing of geographically disjoint resources such as data collections, computer software and computer processing power. The project’s test case will creat ....Application for funding to develop a software grid for data-sharing associated with the NISAD/LONI Virtual Brain Bank. This project will produce tools to enhance collaboration between researchers at physically disparate locations. It builds on emerging Grid computer network technology to create virtual research communities that permit secure sharing of geographically disjoint resources such as data collections, computer software and computer processing power. The project’s test case will create a community of researchers into brain disease (e.g. schizophrenia) who are located in three Australian and one USA site and who will share their patient data, analysis tools and special-purpose computer equipment. The developed tools will allow relatively simple and rapid deployment of similar research grids suitable for a wide range of collaborative projects.Read moreRead less
Novel cellular functions of the microtubule-associated protein tau: Physiological and pathological implications. The social and economic burden of Alzheimer's disease (AD) is enormous, and by 2040 more than 500,000 Australians will suffer from this disease. A key histopathological hallmark of this and many other related diseases are insoluble deposits of the protein tau. Research into novel functions of tau in signalling and transport (both of which are heavily compromised in diseased brains) wi ....Novel cellular functions of the microtubule-associated protein tau: Physiological and pathological implications. The social and economic burden of Alzheimer's disease (AD) is enormous, and by 2040 more than 500,000 Australians will suffer from this disease. A key histopathological hallmark of this and many other related diseases are insoluble deposits of the protein tau. Research into novel functions of tau in signalling and transport (both of which are heavily compromised in diseased brains) will be followed directly by assay development for tau-directed drug screening. The national benefit of this research is manifold by (a) patenting new data, (b) developing treatment strategies for an un-curable disease, and (c) establishing links to the growing Australian biotech industry (in addition to existing links to international pharmaceutical companies).Read moreRead less