Discovery Early Career Researcher Award - Grant ID: DE180100741
Funder
Australian Research Council
Funding Amount
$342,996.00
Summary
Harnessing neural plasticity with brain stimulation. This project aims to investigate the links between the molecular mechanisms underlying brain plasticity and the effects of non-invasive brain stimulation. It will use a novel approach that integrates genetics, electrophysiology and biological modelling. Plasticity underpins all learning, memory and aging. Brain stimulation can drive plasticity in humans, but these effects are extremely difficult to harness and vary widely between people. Expec ....Harnessing neural plasticity with brain stimulation. This project aims to investigate the links between the molecular mechanisms underlying brain plasticity and the effects of non-invasive brain stimulation. It will use a novel approach that integrates genetics, electrophysiology and biological modelling. Plasticity underpins all learning, memory and aging. Brain stimulation can drive plasticity in humans, but these effects are extremely difficult to harness and vary widely between people. Expected outcomes include a critical understanding of the fundamental mechanisms governing plasticity. This will provide significant benefits such as the development of individually optimised brain stimulation protocols, enabling tailored, reliable approaches to address brain function and cognition.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100575
Funder
Australian Research Council
Funding Amount
$423,604.00
Summary
Does neuroplasticity protect against late life cognitive impairment? This project aims to investigate neuroplasticity across the adult lifespan, using novel neurophysiological approaches to determine its role in protecting against age-related cognitive decline. This project expects to generate new knowledge in the area of human cognitive ageing, using an innovative and interdisciplinary approach. Expected outcomes of this project include a critical understanding of the basic neural mechanisms of ....Does neuroplasticity protect against late life cognitive impairment? This project aims to investigate neuroplasticity across the adult lifespan, using novel neurophysiological approaches to determine its role in protecting against age-related cognitive decline. This project expects to generate new knowledge in the area of human cognitive ageing, using an innovative and interdisciplinary approach. Expected outcomes of this project include a critical understanding of the basic neural mechanisms of healthy brain ageing. This will provide significant benefits, such as the neurophysiological knowledge required to develop novel biological markers to detect, as well as therapeutic agents to curb, cognitive decline in the aging population.Read moreRead less
Understanding working memory: from cells to brain stimulation. This project aims to understand the neural mechanisms of working memory, a fundamental cognitive function in humans, using a novel framework which combines non-invasive brain stimulation, neuroimaging, pharmacological and experimental manipulations, and biological modelling. Expected outcomes include a critical understanding of the cellular mechanisms underlying both neural activity and working memory ability in healthy individuals a ....Understanding working memory: from cells to brain stimulation. This project aims to understand the neural mechanisms of working memory, a fundamental cognitive function in humans, using a novel framework which combines non-invasive brain stimulation, neuroimaging, pharmacological and experimental manipulations, and biological modelling. Expected outcomes include a critical understanding of the cellular mechanisms underlying both neural activity and working memory ability in healthy individuals and a detailed knowledge of how to non-invasively interact with these mechanisms using brain stimulation. This will provide significant benefits such as the development of individually optimised brain stimulation protocols, enabling tailored approaches to reliably alter brain function and cognition.Read moreRead less
The effect of temperature biofeedback on sleep and cardiac autonomic tone in young and aged adults. Peripheral heat loss is reported to promote sleep onset. To date, however, most studies examining the thermoregulatory model of sleep onset have used sedative-hypnotics with both thermoregulatory and soporific effects. We propose that a better test of a causal relationship between peripheral heat loss and sleep can be achieved by using temperature biofeedback; a promising non-invasive and non-dr ....The effect of temperature biofeedback on sleep and cardiac autonomic tone in young and aged adults. Peripheral heat loss is reported to promote sleep onset. To date, however, most studies examining the thermoregulatory model of sleep onset have used sedative-hypnotics with both thermoregulatory and soporific effects. We propose that a better test of a causal relationship between peripheral heat loss and sleep can be achieved by using temperature biofeedback; a promising non-invasive and non-drug treatment that does not have a direct effect on sleep structures. We aim to test whether increased peripheral heat loss promotes sleep onset, whether the effects are mediated by changes in autonomic tone, and whether this relationship changes with age.Read moreRead less
Reconnecting the ageing brain to enhance plasticity and motor learning. The ability to execute and learn skillful actions deteriorates with advancing age, but the cause remains elusive. The main aim of this project is to use new neurophysiological techniques to examine the age-related changes in brain function that contribute to reduced movement control in healthy older adults. The research will use multimodal approaches to reveal the causal role of age-related changes in specific brain networks ....Reconnecting the ageing brain to enhance plasticity and motor learning. The ability to execute and learn skillful actions deteriorates with advancing age, but the cause remains elusive. The main aim of this project is to use new neurophysiological techniques to examine the age-related changes in brain function that contribute to reduced movement control in healthy older adults. The research will use multimodal approaches to reveal the causal role of age-related changes in specific brain networks to motor behaviour and learning. The outcomes will provide significant new knowledge that may help to optimise the design of targeted interventions aimed at rejuvenating brain function and movement quality in the elderly.Read moreRead less
How inhibition shapes human brain oscillations and working memory capacity. This project aims to investigate the link between inhibitory mechanisms, gamma oscillations and working memory in humans. Retaining information in short-term ‘working’ memory is crucial for cognition, influencing our personality and intelligence. However, the brain mechanisms underlying this process are unclear. Evidence from animal/computational research indicates that brain oscillations in high frequency ‘gamma’ bands, ....How inhibition shapes human brain oscillations and working memory capacity. This project aims to investigate the link between inhibitory mechanisms, gamma oscillations and working memory in humans. Retaining information in short-term ‘working’ memory is crucial for cognition, influencing our personality and intelligence. However, the brain mechanisms underlying this process are unclear. Evidence from animal/computational research indicates that brain oscillations in high frequency ‘gamma’ bands, which depend on neural inhibition, are critical for working memory. Mapping a path from molecules to cognition will detail how neural mechanisms shape human behavioural performance and guide efforts to enhance memory and cognitive function.Read moreRead less
Boosting brain plasticity and motor function in older adults. Ageing is associated with a pronounced decline in many motor, cognitive, and other brain functions, but the cause remains elusive. This project will examine the mechanisms that contribute to a decline in brain plasticity and motor function in the elderly. Using novel brain stimulation techniques, the project aims to develop an optimal approach to boost plasticity in the ageing brain and improve motor function. A better understanding o ....Boosting brain plasticity and motor function in older adults. Ageing is associated with a pronounced decline in many motor, cognitive, and other brain functions, but the cause remains elusive. This project will examine the mechanisms that contribute to a decline in brain plasticity and motor function in the elderly. Using novel brain stimulation techniques, the project aims to develop an optimal approach to boost plasticity in the ageing brain and improve motor function. A better understanding of changes in brain function and plasticity with advancing age is expected to help to optimise the design of preventative programs aimed at rejuvenating motor and cognitive function in the elderly.Read moreRead less
Functional impact of high fat and high sugar diets on memory encoding. This project aims to determine the functional mechanisms of how fats and sugar affect neuronal processes vital for learning and memory. Expected outcomes will define the neural mechanisms underpinning cognitive changes in emotional and spatial memory encoding, and how these relate to brain and metabolic parameters. This will provide benefits by unveiling the possible consequences of dietary fat and sugar on the brain, and th ....Functional impact of high fat and high sugar diets on memory encoding. This project aims to determine the functional mechanisms of how fats and sugar affect neuronal processes vital for learning and memory. Expected outcomes will define the neural mechanisms underpinning cognitive changes in emotional and spatial memory encoding, and how these relate to brain and metabolic parameters. This will provide benefits by unveiling the possible consequences of dietary fat and sugar on the brain, and the mechanisms of neuroplasticity enhancing interventions.Read moreRead less
Killing which averts suffering: the role of norms and empathy. Abattoir workers and butchers kill animals to prepare food, farmers to cull stock, and veterinarians to alleviate suffering. Soldiers kill other humans in war, police or security guards to protect the public, and doctors to enact legal euthanasia. Research shows that these tasks can be confronting, and even traumatic. This project aims to test the processes through which people learn socially supported palliative killing to avert suf ....Killing which averts suffering: the role of norms and empathy. Abattoir workers and butchers kill animals to prepare food, farmers to cull stock, and veterinarians to alleviate suffering. Soldiers kill other humans in war, police or security guards to protect the public, and doctors to enact legal euthanasia. Research shows that these tasks can be confronting, and even traumatic. This project aims to test the processes through which people learn socially supported palliative killing to avert suffering and their neural underpinnings, with a focus on norms and empathic distress. It will focus on two core samples: veterinarians, who must euthanize animals, and health practitioners in Victoria, where legal changes will introduce ‘voluntary assisted dying’ in mid-2019. It will investigate how practitioners learn palliative killing, and what the impact is on psychological variables such as empathy and identity. It will generate new understandings of social influence around life and death decisions, provide an evidence basis to inform policy makers, and help institutions and practitioners seeking to manage distress and respond to fast-moving, controversial policy changes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100667
Funder
Australian Research Council
Funding Amount
$328,000.00
Summary
How “known unknowns” become known: How do people encode unpredictability? As Donald Rumsfeld noted, there are 'known unknowns’. That is to say, people are seemingly capable of learning that some things cannot be reliably predicted. This learning underpins decisions from the trivial (whether to pack a jacket) to the life-defining (whom to marry). An aberrant form of this learning may also underlie mental health disorders. Yet the mechanisms of such learning have been largely overlooked by cogniti ....How “known unknowns” become known: How do people encode unpredictability? As Donald Rumsfeld noted, there are 'known unknowns’. That is to say, people are seemingly capable of learning that some things cannot be reliably predicted. This learning underpins decisions from the trivial (whether to pack a jacket) to the life-defining (whom to marry). An aberrant form of this learning may also underlie mental health disorders. Yet the mechanisms of such learning have been largely overlooked by cognitive scientists and thus are poorly understood. The project, which is based on significant pilot data, aims to examine when and how people learn about unpredictability, and what the cognitive, memorial, neural and affective consequences of this learning are.Read moreRead less