Age-related changes in brain activation: Indicators of deficiency, maturity, or compensation? It is well established that cognitive and motor performance decline with advancing age. With an aging population, it is of significant socioeconomic importance to facilitate healthy ageing. To promote functional independence in everyday life for as long as possible, a better understanding of brain changes associated with aging is essential. The project will use state-of-the-art neurophysiological techni ....Age-related changes in brain activation: Indicators of deficiency, maturity, or compensation? It is well established that cognitive and motor performance decline with advancing age. With an aging population, it is of significant socioeconomic importance to facilitate healthy ageing. To promote functional independence in everyday life for as long as possible, a better understanding of brain changes associated with aging is essential. The project will use state-of-the-art neurophysiological techniques to examine individual differences in the brain's response to cognitive aging and their association with task performance. Determination of why some individuals show resilience to aging will inform the development of intervention techniques to improve cognitive and motor functions in the aged.Read moreRead less
Facilitatory and inhibitory mechanisms during interlimb coordination in young and older adults. The project seeks to understand how people coordinate their limbs and the factors which limit and enhance this capacity. This is of critical importance because coordination is a dominant deficit in aging and in patients suffering brain insult and neurodegenerative diseases. Disruption of this capacity compromises individual work productivity, mobility and independence. Proficient motor functioning is ....Facilitatory and inhibitory mechanisms during interlimb coordination in young and older adults. The project seeks to understand how people coordinate their limbs and the factors which limit and enhance this capacity. This is of critical importance because coordination is a dominant deficit in aging and in patients suffering brain insult and neurodegenerative diseases. Disruption of this capacity compromises individual work productivity, mobility and independence. Proficient motor functioning is an important lifestyle factor as humans age and deficits in coordinated muscle activity will increase the risk of falls which are the leading cause of injury in elderly adults. Identification of changes in brain processes involved in interlimb coordination will allow for the development of strategies to improve motor functions in the aged.Read moreRead less
The Role Of Central Haemodynamics In Type 2 Diabetes Mellitus-related Brain Disease
Funder
National Health and Medical Research Council
Funding Amount
$899,704.00
Summary
Type 2 Diabetes Mellitus is associated with stiffening of major blood vessels which may allow the transmission of harmful pressure to the small vessels of the brain. This may in turn be responsible for damage to brain cells and a greater risk of dementia. This study will use state-of-the art techniques to test this theory. If true, it may open opportunities to reduce the risk of brain disease in diabetes by using therapies to reduce arterial stiffening.
Cellular mechanisms that protect against copper-bound beta-amyloid. This project will investigate some of the brain’s own mechanisms for protecting itself against Alzheimer’s disease. Understanding these mechanisms will be important for developing future therapeutic strategies for treating Alzheimer’s disease.
Discovery Early Career Researcher Award - Grant ID: DE120100729
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Brain connectivity during movement planning and execution in young and older adults. Ageing is associated with a reduced ability to undertake everyday movement tasks, resulting in loss of independence and frequent injuries due to falls. This research will improve our understanding of the brain mechanisms underlying movement control, with the aim of maintaining older people's quality of life and reducing health costs to the nation.
Evaluation of a multidimensional cognitive enhancement training program for healthy older adults. The percentage of the Australian population aged 65 years and over is projected to increase considerably over the next 50 years. The increased number of older Australians will have a major economic cost in terms of income support and the provision of health services. It is of high socioeconomic importance, therefore, to promote functional independence in this group. The implementation of cognitive e ....Evaluation of a multidimensional cognitive enhancement training program for healthy older adults. The percentage of the Australian population aged 65 years and over is projected to increase considerably over the next 50 years. The increased number of older Australians will have a major economic cost in terms of income support and the provision of health services. It is of high socioeconomic importance, therefore, to promote functional independence in this group. The implementation of cognitive enhancement programs that may slow age-related cognitive decline and, thereby, maximise quality of life and independence for a long as possible will have significant national benefit.Read moreRead less
The Tasmanian Healthy Brain Project: A Longitudinal Intervention Study To Reduce The Risk Of Ageing-related Cognitive Decline And Dementia
Funder
National Health and Medical Research Council
Funding Amount
$878,792.00
Summary
It has been proposed that engagement in purposeful complex mental stimulation provides protection against dementia. The Tasmanian Healthy Brain Project (THBP) is a unique, large-scale prospective trial that examines whether university-level study in older adult population reduces ageing-related cognitive decline and risk of dementia. This project will also examine how an individual’s genetic profile may influence the potential benefits of complex mental stimulation as well as risk of dementia.
Intracortical inhibition evaluated by paired-pulse TMS during choice and simple reaction time tasks. The research will investigate the neurophysiological processes responsible for the selection and initiation of movement in response to an external stimulus. Slowness in the initiation and execution of movement is a common feature of 'neurological aging', neurodegenerative disease, and brain injury. Understanding the brain mechanisms involved in response selection and movement initiation will pro ....Intracortical inhibition evaluated by paired-pulse TMS during choice and simple reaction time tasks. The research will investigate the neurophysiological processes responsible for the selection and initiation of movement in response to an external stimulus. Slowness in the initiation and execution of movement is a common feature of 'neurological aging', neurodegenerative disease, and brain injury. Understanding the brain mechanisms involved in response selection and movement initiation will provide information for the development of specific intervention techniques to improve motor function in these groups.Read moreRead less
The role of the Supplementary Motor Area in time processing. The neural bases of timing mechanisms (0.1-100s range) are the subject of much debate. We hypothesise that the Supplementary Motor Area (SMA), a major cortical structure involving important dopaminergic pathways, subtends duration encoding, in the way depicted by the 'accumulator model'. Using transcranial magnetic stimulation (TMS) over the SMA, we will test healthy subjects in motor and perceptual timing tasks, compared to Parkinson' ....The role of the Supplementary Motor Area in time processing. The neural bases of timing mechanisms (0.1-100s range) are the subject of much debate. We hypothesise that the Supplementary Motor Area (SMA), a major cortical structure involving important dopaminergic pathways, subtends duration encoding, in the way depicted by the 'accumulator model'. Using transcranial magnetic stimulation (TMS) over the SMA, we will test healthy subjects in motor and perceptual timing tasks, compared to Parkinson's disease patients whose timing performance is impaired due to dopaminergic dysfunction. We expect TMS inhibitory effects to induce predictable performance trends, providing support for the accumulator model and the key role of the SMA in timing.Read moreRead less
Neural correlates of performance trade-offs and interference in dual-task performance. Our daily lives are characterised by our ability to produce and sustain a wide range of different movement patterns and to deliberately change patterns as the situation demands. In this project we seek to understand the relationship between brain processes, attentional demands, and the control and learning of coordinated behaviour. A further aim will be to examine how this relationship may be altered as a re ....Neural correlates of performance trade-offs and interference in dual-task performance. Our daily lives are characterised by our ability to produce and sustain a wide range of different movement patterns and to deliberately change patterns as the situation demands. In this project we seek to understand the relationship between brain processes, attentional demands, and the control and learning of coordinated behaviour. A further aim will be to examine how this relationship may be altered as a result of aging, degenerative disease, or brain damage. This research will provide a foundation upon which rehabilitation strategies can be developed for the movement impaired.Read moreRead less