Is EphA4 The Major Molecular Regulator Of Axonal Regeneration?
Funder
National Health and Medical Research Council
Funding Amount
$491,000.00
Summary
Spinal cord injury affects a substantial number of Australians each year. Around half the number of spinal cord injury cases result in quadriplegia, with loss of function to a varying degree in the upper as well as the lower limbs. The limited degree of repair of spinal axons following injury means that such paralysis is usually permanent. Although the inability to walk is a serious issue, the limited function of the arms and hands results in a loss of independence which is a major factor contri ....Spinal cord injury affects a substantial number of Australians each year. Around half the number of spinal cord injury cases result in quadriplegia, with loss of function to a varying degree in the upper as well as the lower limbs. The limited degree of repair of spinal axons following injury means that such paralysis is usually permanent. Although the inability to walk is a serious issue, the limited function of the arms and hands results in a loss of independence which is a major factor contribuing to the enormous personal, financial, and community costs of this problem, estimated to cost the Australian community $200 million a year. In recent years advanced anatomical and molecular approaches to the problem of repair of the central nervous system have provided great insights into the neuronal and glial reactions to neural damage that appear to govern the success or failure of neural regeneration. Our preliminary data indicate that a receptor tyrosine kinase, EphA4, which is important for axonal pathfinding in the developing nervous system, is a potent inhibitor of neural regeneration following spinal cord injury. In this project we will determine the mechanisms by which EphA4 exerts its inhibitory effects, and examine the effect of neutralizing EphA4 signalling on neural regeneration. Success in achieving this result will lead to the development of a therapeutic intervention that we will test in mouse models.Read moreRead less
The Australian Parkinson's Project - Uncovering Genetic Risk Factors For Sporadic PD
Funder
National Health and Medical Research Council
Funding Amount
$768,546.00
Summary
Parkinson s disease (PD) is a progressively disabling movement disorder afflicting many elderly Australians. It is caused by the degeneration of specific nerve cells in the brain that produce certain chemicals and patients suffer from an inability to move fluently (or ultimately at all). At present we do not know what triggers this neurodegeneration, but it is believed that complex interactions between inherited (genetic) and environmental factors contribute significantly to the phenomenon. This ....Parkinson s disease (PD) is a progressively disabling movement disorder afflicting many elderly Australians. It is caused by the degeneration of specific nerve cells in the brain that produce certain chemicals and patients suffer from an inability to move fluently (or ultimately at all). At present we do not know what triggers this neurodegeneration, but it is believed that complex interactions between inherited (genetic) and environmental factors contribute significantly to the phenomenon. This project aims to learn more about these complex interactions and their association with PD. People with PD and unaffected individuals will be recruited from throughout Australia and we will look for specific combinations of genetic, environmental and lifestyle factors that either increase or decrease an individual's risk for PD. This research will identify the most common dominant genetic and environmental influences for PD in Australia, enabling scientists to focus on the most relevant biological pathways to target therapeutically.Read moreRead less
Advances In The Understanding Of Autoimmune Encephalitides And Associated Movement Disorders In Children
Funder
National Health and Medical Research Council
Funding Amount
$68,832.00
Summary
Encephalitis in childhood can be devastating with long lasting effects and mortality. This research focuses on children who suffer from encephalitis due to an autoimmune process. In such cases many children present with involuntary abnormal body movements. This project will explore whether differences in the nature of these movements or in electroencephalography or brain imaging with MRI, can help early differentiation of different types of autoimmune encephalitis.
Dopamine-2 Receptor Antibody In Movement And Psychiatric Disorders
Funder
National Health and Medical Research Council
Funding Amount
$415,783.00
Summary
Autoimmune movement and psychiatric disorders are a common cause of neurological disability young adults and adolescents. We have identified a subgroup of patients whose disease is associated with an autoimmune reaction. Our study will identify the earliest immune responses against the brain in children with autoimmune movement and psychiatric disorders. Identifying these early immune responses will allow early and directed treatments to prevent disability and death in the future.
Development Of Novel Biomarkers For Closed Loop Deep Brain Stimulation In The Management Of Parkinson’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$124,676.00
Summary
Deep Brain Stimulation (DBS) is established therapy in advanced Parkinson’s disease, when medications are less efficient. We aim to identify biomarkers that correlate with symptom state, allowing tailoring of DBS to individual patient’s needs. This will potentially improve symptom control, device efficiency and quality of life, increasing the pool of patients suitable for DBS. Novel DBS systems will build technical expertise and expand Australia’s role in the medical device industry.
Lipophilic Iron Chelators As Potential Therapeutic Agents In Parkinson's Disease
Funder
National Health and Medical Research Council
Funding Amount
$616,537.00
Summary
The impaired coordination and tremors experienced by the 64,000 Australians with Parkinson’s disease make managing life at work and home difficult. With 240,000 Australians projected to be living with Parkinson’s disease by 2033, the discovery of agents that slow or stop disease progression is urgent. Iron in the brain has been implicated in Parkinson’s disease. In this project, the performance of new low toxicity agents in altering brain iron distribution will be studied as potential drugs for ....The impaired coordination and tremors experienced by the 64,000 Australians with Parkinson’s disease make managing life at work and home difficult. With 240,000 Australians projected to be living with Parkinson’s disease by 2033, the discovery of agents that slow or stop disease progression is urgent. Iron in the brain has been implicated in Parkinson’s disease. In this project, the performance of new low toxicity agents in altering brain iron distribution will be studied as potential drugs for Parkinson’s disease.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.
Sensory Cortex Processing Changes Underlying Brain And Behaviour Deficits Caused By Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$576,795.00
Summary
Traumatic brain injury (TBI) from physical head trauma causes behavior and cognitive deficits. The burden for victims, families and the community is enormous: total life-time expenses in moderate-to-severe TBI are estimated to be $8.6 billion in Australia. We aim to elucidate whether changes in how the brain processes sensory information could underlie TBI-induced deficits in complex behaviour and whether these changes will be ameliorated by the three currently-most-promising treatments for TBI.
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.
Establishing The Clinical Spectrum And Pathogenicity Of Antibodies Against Dopamine Receptors In Autoimmune Movement And Psychiatric Disorders
Funder
National Health and Medical Research Council
Funding Amount
$172,126.00
Summary
Dopamine plays a pivotal role in neurotransmission and the control of movement and behaviour. This project aims to define the clinical spectrum and pathogenicity of anti-dopamine receptor antibody mediated diseases. The identification of these antibodies in atypical presentations of common movement disorders would have widespread diagnostic and therapeutic implications, and suggests that selected patients might be amenable to targeted immunomodulatory therapy, thus improving their outcome.