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Studies On Induction Of Antigen Specific T Regulatory Cells To Control Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$353,033.00
Summary
The immune system has natural control mechanisms, called regulatory cells. Our group was the first in the world to correctly identify these cells. There is now a world-wide interest in these cells as they can prevent unwanted immune mediated injury. In autoimmune diseases such as multiple sclerosis, regulatory cells can prevent relapse and progression. This project will identify ways of producing potent specific regulatory cells to control multiple sclerosis and other debilitating neurological d ....The immune system has natural control mechanisms, called regulatory cells. Our group was the first in the world to correctly identify these cells. There is now a world-wide interest in these cells as they can prevent unwanted immune mediated injury. In autoimmune diseases such as multiple sclerosis, regulatory cells can prevent relapse and progression. This project will identify ways of producing potent specific regulatory cells to control multiple sclerosis and other debilitating neurological diseases.Read moreRead less
The Cellular Basis Of Synaptic Integration And Modulation In Human Pyramidal Neurons
Funder
National Health and Medical Research Council
Funding Amount
$917,355.00
Summary
Little is known about how human neurons integrate information, and how this process is altered during neuromodulation and disease. This project will address this fundamental gap in knowledge and will for the first time directly examine the neuromodulation of human neurons, and how this important process is altered in brain cancer. Our team of researchers and surgeons in Melbourne and Berlin will be able to provide valuable, and otherwise unattainable, information about the human brain.
I aim to understand the genetics of the epilepsies. Through detailed analysis of different types of epilepsy, and associated features such as intellectual disability and autism, I will describe new epilepsy syndromes, and together with gene discovery, implement novel targeted therapies. This translational program will transform clinical practice by informing diagnosis, prognostic and genetic counseling, and lead to targeted precision therapies to improve outcomes for each patient.
Hereditary Motor Neuronopathies And Neuropathies: Mechanisms Of Neurodegeneration And Potential Modification.
Funder
National Health and Medical Research Council
Funding Amount
$104,664.00
Summary
The aim of the study is to investigate the pathophysiology of motor neuron degeneration in its various acquired and inherited forms. Nerve function will be determined by clinical and neurophysiological assessments in patients. The findings of the study will reveal further insights into the cause and progression of disorders of the motor neuron. This data may function to monitor disease progression, response to potential therapies and lead to the development of further therapeutic strategies.
Understanding The Mechanisms Of PTEN Transfer Into Glial Cells Using Exosomes
Funder
National Health and Medical Research Council
Funding Amount
$567,253.00
Summary
This application will develop a new way of treating brain cancer which currently affects 1500 adults in Australia per year with no lasting cures. The average patient with a malignant brain tumour do not survive for more than 12 months. We have discovered a method of restoring a cancer suppressor substance that is lost from brain tumours. If successful, this treatment has the potential to limit or reverse the progression of brain tumours.
The Phylodynamics Of Human Enteroviruses: Informing Vaccine Effectiveness And Outbreak Preparedness
Funder
National Health and Medical Research Council
Funding Amount
$564,868.00
Summary
Enteroviruses such as EV-A71 are increasing in frequency and in Australia have resulted in the hospitalization of children with severe encephalitis. However, major aspects of their evolution and epidemiology are unknown. We will provide new insights on these important pathogens by revealing which enteroviruses are circulating in the region and whether they arise in specific localities, whether some are commonly associated with severe encephalitis, and whether some pose a greater epidemic threat.