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’.
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.
How The Lateral Habenula Integrates Behavioral And Autonomic Functions: The VTA Dopamine Connection
Funder
National Health and Medical Research Council
Funding Amount
$819,904.00
Summary
When adverse events occur, the lateral habenula, an old brain nucleus, helps calculate the wisest corrective action by contributing to the “brake” that controls the brain’s dopamine reward system. Our research will show how the lateral habenula links corrective changes in behavior with coordinated changes in temperature. Understanding this link will greatly contribute to understanding the brain mechanisms that regulate our physiology during stressful situations and as part of mental illness.
LIM-homeodomain interactions in neuronal development. The loss of central nervous system function, through accident or disease, is devastating for affected individuals and their families. Our current inability to stimulate the regeneration of nervous tissue is a result of the lack of detailed knowledge of the complex processes that must take place, at the molecular and cellular levels, during neuronal development. We are determining how a group of cellular proteins that have key roles in motor n ....LIM-homeodomain interactions in neuronal development. The loss of central nervous system function, through accident or disease, is devastating for affected individuals and their families. Our current inability to stimulate the regeneration of nervous tissue is a result of the lack of detailed knowledge of the complex processes that must take place, at the molecular and cellular levels, during neuronal development. We are determining how a group of cellular proteins that have key roles in motor neuron development interact with each other and with DNA. With this information we are developing reagents that can be used to further probe central nervous system function and may ultimately be used to regenerate damaged nerves.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.
Role Of Chemokines And Interferons In Neural Progenitor Cell Function
Funder
National Health and Medical Research Council
Funding Amount
$521,178.00
Summary
Regeneration of the central nervous system following disease or injury is extremely limited and frequently results in substantial impairment. A potential therapy to replace damaged or killed nervous system cells is the use of neural stem cells. Neural stem cells are present in the central nervous system and frequently attempt, but fail to repair nervous system damage. This project aims to examine factors that regulate neural stem cell function including factors that may regulate their ability to ....Regeneration of the central nervous system following disease or injury is extremely limited and frequently results in substantial impairment. A potential therapy to replace damaged or killed nervous system cells is the use of neural stem cells. Neural stem cells are present in the central nervous system and frequently attempt, but fail to repair nervous system damage. This project aims to examine factors that regulate neural stem cell function including factors that may regulate their ability to migrate or become appropriate neural cell types. Of particular interest are factors known as chemokines that regulate cell migration as well as have a variety of other effects. In addition, interferons, which are inflammatory molecules present in the damaged nervous system and that we have shown affect neural stem cell function, may interact with chemokines and will also be examined. In addition to examining the effects of these factors on neural stem cells, the signalling pathways they use in these cells will also be determined.Read moreRead less
Investigation Of The Clinical Utility Of The Nintendo Wii_ Gaming System For Assessment And Rehabilitation Of Balance Post-stroke
Funder
National Health and Medical Research Council
Funding Amount
$75,660.00
Summary
The assessment and treatment of balance problems following stroke is a primary focus for physiotherapists working in this field. The Nintendo Wii_, a commercially available active gaming system, is a potentially useful tool for stroke rehabilitation. This research will investigate the effectiveness of this system to improve balance following stroke as well as examine the clinical utility of the Wii Balance Board_, with custom-designed software, for assessment of balance in stroke patients.
Which Neurons Maintain Sympathetic Vasomotor Tone?
Funder
National Health and Medical Research Council
Funding Amount
$567,918.00
Summary
High blood pressure is a major risk factor for cardiovascular disease, a major burden of disease worldwide. High levels of nerve activity that cause the blood vessels to constrict elevating blood pressure are characteristic of hypertension. We do not know which brain cells set and maintain this nerve activity. We will identify these cells, determine how they function and what regulates them. Ultimately we could control these cells treating the cause of hypertension or when clinical need arises.