Volitional And Non-volitional Control Of Human Balance: Normal Physiology And Changes With Ageing
Funder
National Health and Medical Research Council
Funding Amount
$383,066.00
Summary
How does the brain control balance when we stand? Our research shows that two very distinct processes operate to produce distinct postural, perceptual and cardiovascular outcomes. These experiments investigate the neurophysiology that coordinates these systems and what happens with age. The results will fundamentally change views on balance control. Balance problems are common in neurological disorders and old age. Knowing how balance works will improve diagnosis, treatment and rehabilitation.
Influence Of Cortical Stroke And Experimental Brain Stimulation On Excitability Of Human Corticobulbar Motor Projections And Swallowing Function
Funder
National Health and Medical Research Council
Funding Amount
$130,183.00
Summary
Swallowing disorders often result from damage to the brain. They have profound consequences on patient health and quality of life and result in significant medical and socioeconomic costs. This project firstly investigates how motor networks in the brain control the muscles involved in swallowing and how this control is affected by stroke. Secondly, it evaluates the potential of novel interventions to improve impaired swallowing function following stroke by reorganising motor networks.
Cortical Plasticity And Fine Motor Skills In Older Adults
Funder
National Health and Medical Research Council
Funding Amount
$244,255.00
Summary
Even in healthy individuals, the ageing process is usually associated with a progressive reduction in the performance of various motor skills, such as writing, placing keys in keyholes and fastening buttons. These deficits in manual performance may be due to an age-related decline in the ability of the brain to modify its connections (plasticity) when learning new motor skills. This brain plasticity is a fundamental property of the nervous system, where it is critical for learning and memory, bu ....Even in healthy individuals, the ageing process is usually associated with a progressive reduction in the performance of various motor skills, such as writing, placing keys in keyholes and fastening buttons. These deficits in manual performance may be due to an age-related decline in the ability of the brain to modify its connections (plasticity) when learning new motor skills. This brain plasticity is a fundamental property of the nervous system, where it is critical for learning and memory, but is also important for recovery from brain injury. The goal of the proposed studies is to examine the extent of brain plasticity when performing fine motor skills in older adults, and relate this to motor performance and learning in the elderly. We will use three complementary approaches that will employ novel techniques of magnetic brain stimulation to achieve this goal. These studies will be the first to ascertain a link between deficits in brain plasticity and impaired manual performance in older adults. Furthermore, these studies will be the first to examine interventions designed to promote brain plasticity and motor performance in older adults. Because the majority of patients requiring neurological rehabilitation are in an older age group, it is important to understand the extent of brain plasticity in the elderly. This new information may ultimately lead to innovative therapeutic or rehabilitation strategies to retain or improve fine motor skills in the elderly and promote functional recovery from brain injury.Read moreRead less
How are memories stored in the brain? We know much about the brain regions involved in memory storage but we know little or nothing about how individual memories are represented and stored within those brain areas. The purpose of this project is to label and manipulate the specific subsets of brain cells that store individual memories. We will label memory-bearing cells in multiple brain regions and then ask how the connections between those cells encode learned information in the brain.
The Influence Of Human Cortical Rhythms On The Induction Of Plasticity
Funder
National Health and Medical Research Council
Funding Amount
$298,898.00
Summary
The human brain has a great capacity to reorganise. This capacity is known as plasticity and is behind our ability to learn new skills. Plasticity is important for recovery from brain injury. The recently developed technique of transcranial magnetic stimulation can be used to manipulate plasticity in the human brain This approach offers new and exciting therapeutic opportunities. This project is aimed at optimising this technique.
High-resolution Brain Imaging Of Basal Ganglia Function
Funder
National Health and Medical Research Council
Funding Amount
$589,083.00
Summary
This project will develop new methods for high resolution MRI imaging of the human brain. We will assess functions of deep brain areas known as the basal ganglia that play a critical role in movement planning and co-ordination. Dysfunction within the basal ganglia is responsible for the motor impairments seen in people with Parkinson’s disease. In this project, we will examine changes in basal ganglia function and structure that lead to individual differences in movement control and learning.
Experience drives changes in the connections between neurons in the brain. This neuroplasticity is a fundamental property of the nervous system, critical for learning and memory, but also important for recovery from injury and development of some nervous system disorders. This study will improve understanding of how, with practice, the human brain adapts to functional demands in the development of motor skill. Musicians are used as exemplars of fine motor skill who show long-term experience-driv ....Experience drives changes in the connections between neurons in the brain. This neuroplasticity is a fundamental property of the nervous system, critical for learning and memory, but also important for recovery from injury and development of some nervous system disorders. This study will improve understanding of how, with practice, the human brain adapts to functional demands in the development of motor skill. Musicians are used as exemplars of fine motor skill who show long-term experience-driven plasticity in the brain. This study will provide specific and detailed quantitative information about how motor cortex circuits important for control of the hand are altered in musicians. The study will also improve understanding of basic mechanisms involved in short-term neuroplasticity associated with motor learning in musicians and non-musicians, and hemispheric or training-related differences in these properties which may contribute to different abilities to use the hand for fine motor tasks.Read moreRead less
The Missing Link: MGluR5 As A Therapeutic Target For Cognitive Decline In Dementia
Funder
National Health and Medical Research Council
Funding Amount
$563,622.00
Summary
Cognitive decline is a core feature of Alzheimer’s Disease (AD), yet there is no cure or treatment. Recent evidence suggests that a protein called mGluR5 could cause brain cells to lose function, leading to memory loss. This project will investigate whether disrupting mGluR5 function can improve cognition in mice with genetic AD. Memory will be assessed in mice using innovative touchscreen tests that closely mimic the tests used in humans.
IRAP inhibitors are currently being developed as a new class of drugs for treating dementia and other forms of memory deficits. However, there are still gaps in our knowledge about how these drugs act to improve memory. The experiments outlined in this proposal will provide important insights into the drug action in different mouse models of memory deficit.
The Role Of Afferent Input In The Development Of Focal Task Specific Dystonia
Funder
National Health and Medical Research Council
Funding Amount
$213,000.00
Summary
The term dystonia is used to describe a condition that is characterised by abnormal muscle activation patterns. This leads to impaired control of voluntary movements. Depending upon which part of the body is affected, dystonia may be classified as generalised (affecting two or more body segments), hemi (involving one side), segmental (involving adjacent body parts or a segment), or focal (affecting one part of the body). Many of the focal dystonias are also task specific and the aim of this prop ....The term dystonia is used to describe a condition that is characterised by abnormal muscle activation patterns. This leads to impaired control of voluntary movements. Depending upon which part of the body is affected, dystonia may be classified as generalised (affecting two or more body segments), hemi (involving one side), segmental (involving adjacent body parts or a segment), or focal (affecting one part of the body). Many of the focal dystonias are also task specific and the aim of this proposal is to investigate these task-specific focal dystonias. Task-specific focal dystonia is common in the community and causes considerable suffering and loss of productivity. For example, writer's cramp (a common form of task specific focal dystonia) is probably the commonest cause of writing difficulty in patients in whom this is the sole complaint. No treatment regimen has been shown to be effective in alleviating it's often debilitating symptoms. The aim of these studies is to further define the pathophysiological changes seen in task-specific dystonia and investigate the mechanisms responsible for their generation. Using the techniques of transcranial magnetic stimulation and peripheral nerve stimulation we will investigate the organisation of the motor cortex in this condition and examine the influence of afferent input on intrinsic cortical circuitry. We hypothesise that the motor regions of the brain are more sensitive to the particular repeated patterns of sensory information reaching the brain during repetitive movement and this results in abnormal alterations in organisation that may be responsible for the symptoms of dystonia. Additionally, we predict that it may be possible to reverse these organisational changes by applying novel patterns of nerve stimulationRead moreRead less