Tuberous Sclerosis And Epilepsy: Using Resected Tissue To Understand Pathogenesis And Inform Management
Funder
National Health and Medical Research Council
Funding Amount
$339,261.00
Summary
Epilepsy is the commonest neurological disorder in childhood and seizures cannot be fully controlled by medications in 30%, often leading to developmental consequences. A major cause of drug-resistant epilepsy is a malformation of the brain’s surface. Surgery is sometimes used to remove these lesions to treat the epilepsy. We will study this tissue to understand its architecture, genetic basis and how it causes seizures. Our results will guide treatment including the best surgical approach.
Identifying The Neural Signature Of Persistent Pain
Funder
National Health and Medical Research Council
Funding Amount
$547,094.00
Summary
Chronic pain affects over 20% of Australians. Despite its high prevalence, it is relativly resistant to current treatment regimes and part of the reason behind our inadequate ability to provide satisfactory pain relief is due to our limited understanding of the pathophysiology that underlies this condition. This proposal will develop a novel understanding of the central neuroplastic changes associated with chronic pain and the role that these changes play in the maintenance of these conditions.
The mammalian cerebral cortex is an area of the brain responsible for all higher order cognitive processes. I investigate how connections from between the two cerebral hemispheres during embryonic and foetal development, thus enabling the brain to coordinate information from the two sides of the body. Malformations of these connections cause mental retardation and sensory and motor deficits. I want to understand how these brain defects occur and how best to treat them.
Understanding Neurodevelopment In Preterm Children Utilising MRI
Funder
National Health and Medical Research Council
Funding Amount
$302,123.00
Summary
Children born very preterm are more likely to have movement, learning and behavioural difficulties resulting from abnormal brain development or injury around the time of birth. This project will help identify common brain alterations in preterm children using MRI, as well as the causes and consequences of such abnormalities. Ideally, this research will help health professionals to prevent abnormalities and injury, or to intervene early to reduce the adverse effects of prematurity.
Genetic And Functional Analysis Of Brain Malformations
Funder
National Health and Medical Research Council
Funding Amount
$105,327.00
Summary
Disorders of early brain development are recognised as a significant cause of illness and disability in children. Unfortunately, the causes of these conditions are poorly understood, and treatment options are limited. It has become apparent that many of these conditions have an underlying genetic basis. This project will identify genes that regulate brain development and aid the development of improved treatment programs for brain and mind disorders.
Prof Alan Connelly is an internationally recognised neuroimaging researcher specialising in MRI. His major areas of research are in the development of new methods to acquire and process MR images of both structural and functional aspects of the brain, and the application of these novel methods to clinical neuroscience problems. His work has had a major impact in the field of epilepsy, where techniques that he pioneered have been widely adopted in specialist epilepsy centres worldwide.
The Role Of Reelin-signalling On Cortical Neuron Migration
Funder
National Health and Medical Research Council
Funding Amount
$716,196.00
Summary
Disorders that occur during brain development can lead to abnormal behaviours traits such as anxiety and altered social interactions, plus abnormalities in neuronal function and information processing. The region of the brain responsible for originating the motor, sensory and cognitive functions of a human is the cortex. This brain region is comprised of two major types of neurons that are arranged in a highly organized manner. One captivating aspect of the brain is that during early stages of d ....Disorders that occur during brain development can lead to abnormal behaviours traits such as anxiety and altered social interactions, plus abnormalities in neuronal function and information processing. The region of the brain responsible for originating the motor, sensory and cognitive functions of a human is the cortex. This brain region is comprised of two major types of neurons that are arranged in a highly organized manner. One captivating aspect of the brain is that during early stages of development neurons are generated in one part of the brain and migrate great distances to a final destination. It is therefore necessary during development to have a well-orchestrated, controlled series of events that lead to the correct positioning and association of neurons. The precise functions of many gene products involved in this process are not known. One major advancement in the development of the cortex is the discovery of the protein Reelin which is found in the outermost region of the developing cortex. Mutations in Reelin, in humans, have been implicated in the causation of schizophrenia and mood disorders. These disease states are the result of altered migration of neurons in the cortex. The research proposed in this application is designed to understand the precise process of how two types of neurons migrate and assemble in the cortex. Technology today allows us to visualize, in culture, neurons as they migrate in real-time. This is referred to real time-lapse imaging and allows the researcher the ability to examine how external factors, affect migration of cortical neurons. We will determine how Reelin is involved in this process and our research will elucidate the fundamental process of cortical brain development.Read moreRead less
Advancing The Evidence-base For Childhood Brain Insult: Diagnosis, Assessment And Intervention
Funder
National Health and Medical Research Council
Funding Amount
$575,662.00
Summary
My research has 4 primary objectives, representing major gaps in current knowledge: 1. improve knowledge of recovery and determinants of post-concussive symptoms 2. establish the impact of child brain insult on socio-emotional function and identify contributing factors 3. develop an iPad based tool for socio-emotional function 4. evaluate and disseminate e-heath treatments for child brain insult
Combining Timelapse Imaging And Computational Modelling To Understand The Mechanisms Of Axon Guidance In The Developing Retinotectal System
Funder
National Health and Medical Research Council
Funding Amount
$438,793.00
Summary
Understanding how patterns of brain wiring develop is crucial for understanding many cognitive disorders. One of the commonest types of connection pattern in the brain is a topographic map, where nearby neurons in one structure connect to nearby neurons in another structure. Using the transgenic tools available in the zebrafish as a model system, we will combine novel experiments with computational modelling to understand the rules which govern the formation of topographic maps in the brain.
Targeting Of Callosal Axons To Duplicate Cortical Areas In The Contralateral Hemisphere
Funder
National Health and Medical Research Council
Funding Amount
$600,785.00
Summary
The two sides of the brain communicate via a large fibre tract called the corpus callosum. This proposal investigates how the corpus callosum is formed during embryonic and postnatal development. Specifically, we investigate how the axons that make up the corpus callosum are able to locate their precise target in the contralateral hemisphere so that the brain circuit they form will be functional. We have developed a new mouse model to discover the fundamental mechanisms regulating how the brain ....The two sides of the brain communicate via a large fibre tract called the corpus callosum. This proposal investigates how the corpus callosum is formed during embryonic and postnatal development. Specifically, we investigate how the axons that make up the corpus callosum are able to locate their precise target in the contralateral hemisphere so that the brain circuit they form will be functional. We have developed a new mouse model to discover the fundamental mechanisms regulating how the brain is wired in order to function correctly.Read moreRead less