The neural basis of memory. Although they define us, our knowledge about how, and where, memories are processed and stored within the brain is still in its infancy. This project aims to investigate the morphological and functional changes that occur in cortical neurons during memory formation. By recording from both mouse and human neurons, this study will bridge the gap in knowledge between the heavily-investigated rodent brain and the human brain and advance our knowledge on how remote memorie ....The neural basis of memory. Although they define us, our knowledge about how, and where, memories are processed and stored within the brain is still in its infancy. This project aims to investigate the morphological and functional changes that occur in cortical neurons during memory formation. By recording from both mouse and human neurons, this study will bridge the gap in knowledge between the heavily-investigated rodent brain and the human brain and advance our knowledge on how remote memories are formed in individual neurons within the frontal cortex of the brain. These findings will highlight potential neural mechanisms that might be awry in cases of memory loss and amnesia.Read moreRead less
Unravelling the brain circuits linking emotions and heart rate variability. We are all familiar with the rapid breathing and heart pounding that occurs when we are frightened. Is the feeling of panic because we sense our heart pounding, or does our heart pound because we panic? This age-old question has resisted attempts to understand its neurobiological basis. This project aims to address this lack of knowledge using novel cutting-edge neuroscience methods that enable mapping of connected brain ....Unravelling the brain circuits linking emotions and heart rate variability. We are all familiar with the rapid breathing and heart pounding that occurs when we are frightened. Is the feeling of panic because we sense our heart pounding, or does our heart pound because we panic? This age-old question has resisted attempts to understand its neurobiological basis. This project aims to address this lack of knowledge using novel cutting-edge neuroscience methods that enable mapping of connected brain pathways and the ability to change the activity of specific brain cells with millisecond time resolution. The project will identify, and functionally characterise, the link between the heart and emotions, to gain new insights into the interaction between the autonomic nervous system and disordered emotional regulation.Read moreRead less
The capacity for exceptional brain repair in a novel rodent species. This project aims to provide a new and much-needed living tool for studying brain injury and repair. The project expects to generate new evidence of effective brain repair in a mammalian species, the spiny mouse. In particular, it will provide important knowledge of the cellular responses that coordinate to allow mammalian brain repair, revealing targets for future understanding and treatment. Expected outcomes include an in-de ....The capacity for exceptional brain repair in a novel rodent species. This project aims to provide a new and much-needed living tool for studying brain injury and repair. The project expects to generate new evidence of effective brain repair in a mammalian species, the spiny mouse. In particular, it will provide important knowledge of the cellular responses that coordinate to allow mammalian brain repair, revealing targets for future understanding and treatment. Expected outcomes include an in-depth characterisation of how neurons and non-neuronal cells (glia) contribute to brain repair, and the identification of new pathways or targets for mammalian brain repair. In the long-term this should provide significant benefits for future research focused on improving the lives of people affected by brain injury. Read moreRead less
Decoding the brain network of memory formation. This project aims to uncover how the brain network supports the formation of long-lasting memory using cutting-edge imaging, intervention and computational modelling. The project is anticipated to generate new knowledge of the neural activity and circuitry that facilitate memory formation, and targets for modulating network activity and behaviour. This will have significant benefits for neuroscience, engineering and imaging, as well as future appli ....Decoding the brain network of memory formation. This project aims to uncover how the brain network supports the formation of long-lasting memory using cutting-edge imaging, intervention and computational modelling. The project is anticipated to generate new knowledge of the neural activity and circuitry that facilitate memory formation, and targets for modulating network activity and behaviour. This will have significant benefits for neuroscience, engineering and imaging, as well as future applications in humans with technology for detecting, predicting and modulating cognitive performance.Read moreRead less