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Investigating The Potential Of Human Stem Cells To Repair The Degenerating Auditory Nerve After Deafness
Funder
National Health and Medical Research Council
Funding Amount
$310,787.00
Summary
One in four Australians is predicted to experience some form of hearing loss by 2050. Hearing loss is irreversible and the chief clinical treatment available for severe to profound hearing loss is a cochlear implant. However, cochlear implant efficacy is limited by the degeneration of the auditory nerve following hearing loss. Using stem cells, this project will develop techniques to restore function to the auditory nerve through replacement of the specialised cells that comprise it.
Regulation Of Dendritic Ion Channels And Its Role In Intrinsic Neuronal Excitability In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$402,810.00
Summary
Nerve cells are able to regulate their activity to maintain the reliable transfer of information between cells. By conducting detailed electrical and chemical analysis of nerve cells this project will increase our understanding of how nerve cells regulate their activity, and provide important information on how this activity may be altered in brain disorders like epilepsy. The results of this research may also lead to the development of new more effective drugs to treat many brain disorders.
SPARC Induced Tendon Differentiation And Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$154,718.00
Summary
Tendinopathy has a significant patient morbidity, which is a clear burden to the Australian economy. A better fundamental grasp of tendon tissue biology is urgently required. This study will enable us to establish the role of matricellular protein SPARC in tendon function, thus enhance the understanding of tendon biology and enable translation of the bench work to potential clinical applications.
Properties And Functions Of Reactive Astrocytes And Their Role In Neurological Disease
Funder
National Health and Medical Research Council
Funding Amount
$344,652.00
Summary
I am a developmental neuroscientist interested in the way alterations to normal brain development affect neuronal function later in life. I intend to investigate this by studying astrocytes – the cells that support and nourish brain nerve cells. In some diseases these astrocytes become stressed and instead of aiding the brain, set about destroying it. A better understanding of their action during development and disease may enable improved interventions for the treatment of many brain disorders.
Multimodal Electrically Conducting Bionic Implant For Long-distance Oriented Axonal Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Neurotrauma, defined as an injury to the central nervous system, is a debilitating medical condition affecting over 3 million people annually worldwide. Loss of function following injury is largely due to the limited potential of nerve cells to regenerate. I will develop a bionic platform that conducts electrical signals and delivers growth promoting proteins thereby enhancing the directed regeneration of nerve cells necessary to bridge the gap caused by the injury and restore organ function.
Multiple sclerosis is a particularly devastating disease that affects people early in their lives. This chronic disabling condition is characterized by inflammation and loss or damage to the myelin sheath that surrounds axons. There is preliminary evidence suggesting that certain cell signals may prevent the cells that produce myelin from death in multiple sclerosis. This study will seek to determine how and which signals prevent cell death and whether this may be a potential therapeutic interve ....Multiple sclerosis is a particularly devastating disease that affects people early in their lives. This chronic disabling condition is characterized by inflammation and loss or damage to the myelin sheath that surrounds axons. There is preliminary evidence suggesting that certain cell signals may prevent the cells that produce myelin from death in multiple sclerosis. This study will seek to determine how and which signals prevent cell death and whether this may be a potential therapeutic intervention.Read moreRead less