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.
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.
Clarifying The Clinical Application And Mechanisms Of Pedunculopontine Nucleus Deep Brain Stimulation For Parkinson’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$202,320.00
Summary
Over 64,000 Australians have Parkinson’s disease. Most patients with Parkinson’s disease ultimately develop gait ‘freezing’ and poor balance, which impair quality of life and cause falls. Unfortunately, gait freezing and poor balance often don’t improve with conventional treatments. We are therefore helping to develop a new treatment for these symptoms, which involves implanting a pacemaker into a very deep region in the brain called the “Pedunculopontine Nucleus’.
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
Strengthening Functional Connectivity In The Ageing Brain.
Funder
National Health and Medical Research Council
Funding Amount
$320,891.00
Summary
Age-related deficits in the ability to perform meaningful, voluntary movements markedly increase the likelihood of experiencing falls, a major cause of injury among older adults. Using advanced neurophysiological techniques, this project will (1) define the role of functional connectivity decline in age-related movement deficits and (2) gain a mechanistic understanding of improvements in voluntary movement control through a promising intervention for reversing age-related functional decline.
Pathologies Of Action Control: Amygdala-striatal Interactions And The Development Of Habits.
Funder
National Health and Medical Research Council
Funding Amount
$431,867.00
Summary
Changes in basal ganglia function, whether produced by neurodegenerative disorders, stroke, injury or disease, can produce pathological changes in action control. This proposal will assess the role of amygdala afferents on basal ganglia structures, most notably the dorsal striatum, in this process. Using an animal model we will compare the role of central and basolateral amygdala inputs to striatum in decision-making, choice and the transition of actions to reflexive, habitual responses.
Novel Assessments Of The Central And Peripheral Control Of The Human Hand
Funder
National Health and Medical Research Council
Funding Amount
$365,105.00
Summary
This is a study of how the human hand works. The hand is supremely adapted for manual skills ranging from writing and playing a musical instrument to non-verbal communications via gesture and pointing. How is the range of hand skills achieved? We are motivated to study this because the ability of the hand to recovery from some neurological disorders, particularly stroke, is very poor. One important element in virtually all activities of the hand is precise movement of the thumb. The tip of the t ....This is a study of how the human hand works. The hand is supremely adapted for manual skills ranging from writing and playing a musical instrument to non-verbal communications via gesture and pointing. How is the range of hand skills achieved? We are motivated to study this because the ability of the hand to recovery from some neurological disorders, particularly stroke, is very poor. One important element in virtually all activities of the hand is precise movement of the thumb. The tip of the thumb is flexed by a single muscle, a muscle only present in humans. We want to determine how this muscle works, and how the force it produces affects the whole hand. We will use specialised neurophysiological techniques to do this in human volunteers. There is no comparable animal model for this type of work due to significant differences at both the level of the brain and the level of the muscle. Second, we want to understand better how the cells in the spinal cord which control the hand (and other) muscles work. We have two new ways to do this, including a novel technique which can activate these cells with a form of stimulation that may help us improve functional electrical stimulation. Finally, with 27 bones and more than 25 muscles which operate it, the hand is not simple to control. We will use a new apparatus to measure how well it is controlled, and we will directly stimulate the motor areas of the brain to evaluate the control. From this, we will come up with new understanding, as well as new stimulus and measurement techniques that can be applied to patients with impaired hand function, as occurs all too often after stroke.Read moreRead less