In Vivo Analysis Of The Molecular And Neural Mechanism That Underly An Association Of MiRNAs With Mental Disorders
Funder
National Health and Medical Research Council
Funding Amount
$593,778.00
Summary
Genetic studies on autism, schizophrenia, bipolar disorder and major depression suggest that these disorders affect the formation and maintenance of connections between neurons. A group of brain-specific microRNAs, which are regulatory molecules, are predicted to regulate connectivity. Levels of these molecules are found to be abnormal in brains of patients with schizophrenia. This proposal aims to elucidate the function of these microRNAs in the number of neuronal connections, and early motor b ....Genetic studies on autism, schizophrenia, bipolar disorder and major depression suggest that these disorders affect the formation and maintenance of connections between neurons. A group of brain-specific microRNAs, which are regulatory molecules, are predicted to regulate connectivity. Levels of these molecules are found to be abnormal in brains of patients with schizophrenia. This proposal aims to elucidate the function of these microRNAs in the number of neuronal connections, and early motor behavior in transgenic zebrafish.Read moreRead less
This study investigates how much an individual's genes and environment account for the wide variation in brain structure and function. Using brain imaging we examine in what way the connectivity of the brain of identical and non-identical twins is the same or different from that of their co-twin, and carry out analysis of their DNA to identify some of the genes involved. This will provide fundamental information on genetic mechanisms influencing variation in brain structure and function.
Pain has a detrimental impact on ones quality of life and a significant financial impact on the community. It has recently been revealed that chronic pain is associated with altered brain anatomy and function. Using human brain imaging, we aim to determine the underlying reason for these changes by following individuals during the development of pain. Defining the mechanism underlying pain will aid in the development of better treatment regimens.
Executive Dysfunction And Brain Development In Very Preterm 13-year-olds - A Longitudinal MRI Study.
Funder
National Health and Medical Research Council
Funding Amount
$738,656.00
Summary
An area of concern for very preterm children is executive function (i.e. skills used for problem solving), which is related to educational problems, behavioural issues and social difficulties. In very preterm children this study will 1) determine if executive function problems remain stable, worsen, or improve with age; 2) look for markers for these problems from infant brain scans; and 3) examine how executive function difficulties are related to brain re-organisation.
Effective Sensory Rehabilitation After Stroke: Targeting Viable Brain Networks.
Funder
National Health and Medical Research Council
Funding Amount
$767,525.00
Summary
New therapies have been developed to help the brain recover after stroke. We will compare brain networks involved in recovery of touch sensation under two new training conditions and in individuals with interruption to different parts of the network. Brain imaging will identify the functional and anatomical connections between brain regions. Our findings will guide therapists in choosing the best therapy for the right individual, based on knowledge of brain networks that have capacity to adapt.
Control Of Prosthetic Limbs From Decoded Brain Signals
Funder
National Health and Medical Research Council
Funding Amount
$895,832.00
Summary
This research will restore mobility to patients who suffer from paralysis. We aim to create a device, known as a brain-machine interface, which is an artificial communication path from the brain that bypasses an injury, such as a damaged spinal cord or stroke. The interface will decode a user’s intent and act upon it. Decoders will use physiological principals and state-of-the-art machine learning methods. We will test a user’s ability to control an artificial limb using decoded brain activity.
The Modulation Of Neuronal Activity By Inter-cortical Sensory Input
Funder
National Health and Medical Research Council
Funding Amount
$638,771.00
Summary
For any given behaviour, the brain must merge information from all different sensory systems to generate a coherent representation of the external world. How this is achieved is largely unknown and is the basis of this research proposal. Here, using cutting edge recording techniques, the activity of brain cells within the cortex will be measured during the activation of multiple sensory systems. This research will provide insight into therapeutic approaches to local brain damage.
Functional Anisotropies In The Processing Of Orientation And Direction-of-motion By Human Visual Cortex
Funder
National Health and Medical Research Council
Funding Amount
$366,164.00
Summary
We will study patterns of activity in the human brain to identify the cortical signature of normal visual function. The correspondences between patterns of brain activity and the structure and motion of the visual image in the normal human brain will provide data against which brain activity in a range of disorders from amblyopia to schizophrenia can be assessed.
Targeting Mitochondrial Metabolism In Diffuse Intrinsic Pontine Gliomas As A Novel Therapeutic Strategy
Funder
National Health and Medical Research Council
Funding Amount
$607,796.00
Summary
Diffuse Intrinsic Pontine Glioma (DIPG) represents the most aggressive cancer of childhood, with no effective treatments available, and almost all children dying within one year of diagnosis. We have successfully grown the first DIPG cells in the laboratory and found a new approach to attack them, by specifically targeting the cell's power source - the mitochondria. We will build on these findings and develop this treatment strategy with the aim to make this novel therapy available to children w ....Diffuse Intrinsic Pontine Glioma (DIPG) represents the most aggressive cancer of childhood, with no effective treatments available, and almost all children dying within one year of diagnosis. We have successfully grown the first DIPG cells in the laboratory and found a new approach to attack them, by specifically targeting the cell's power source - the mitochondria. We will build on these findings and develop this treatment strategy with the aim to make this novel therapy available to children with this deadly disease.Read moreRead less
Adult Vitamin D Deficiency And Cognitive Dysfunction In A Mouse Model
Funder
National Health and Medical Research Council
Funding Amount
$419,117.00
Summary
Vitamin D deficiency is common in the Australian adult population. We provide convincing evidence that vitamin D deficiency during adulthood impacts on brain function in a mouse model. If these changes generalize to humans, then this broader program of research could have important public health implications. Vitamin D supplementation is safe and cheap is clearly an attractive candidate for public health intervention.