Astrocytic Contributions To Tissue Damage And Dysfunction In Stroke
Funder
National Health and Medical Research Council
Funding Amount
$275,810.00
Summary
Stroke is a primary cause of disability and death in adults. The symptoms of stroke arise from damage to brain tissue following disruptions to blood flow. At present, there are few options for treatments to limit the extent of tissue damage and the consequent disruption to function. Although, there have been considerable advances in understanding the cellular and molecular processes underlying the tissue damage, many issues are unresolved. A better understanding of these processes is likely to o ....Stroke is a primary cause of disability and death in adults. The symptoms of stroke arise from damage to brain tissue following disruptions to blood flow. At present, there are few options for treatments to limit the extent of tissue damage and the consequent disruption to function. Although, there have been considerable advances in understanding the cellular and molecular processes underlying the tissue damage, many issues are unresolved. A better understanding of these processes is likely to open up new avenues for ameliorating damage and improving outcomes for stroke patients. Astrocytes are one of the major populations of cells in the brain. They play key roles in supporting normal brain function and protecting nerve cells in the brain. Because of their many functions, these cells offer considerable potential as a therapeutic target in stroke. Unfortunately, the responses of astrocytes in this disorder are poorly understood due partly to a lack of techniques to distinguish their contributions from that of other cells in the brain. We have recently designed a novel system using antibodies to deliver genes into selected populations of nerve cells in the nervous system and thus to selectively alter the function of these cells. In the proposed study, we will adapt this technique to selectively modify gene expression in astrocytes. We will then apply the procedure to determine the consequences of altering key functions in astrocytes on the brain damage and behavioural changes that develop in an animal model of stroke. The successful completion of this research will provide a powerful means to investigate the function of astrocytes, not only in diseases such as stroke but also in normal brain. We will also gain novel insights into the astrocytic role in the damage and dysfunction resulting from stroke that have potential applications in developing new therapies.Read moreRead less
Establishing A Model Of Occlusive Middle Cerebral Artery Stroke In The Sheep
Funder
National Health and Medical Research Council
Funding Amount
$74,365.00
Summary
Stroke is the second leading cause of death and the highest cause of disability in adult Australians, however our lack of an animal model that correctly replicates the human condition has severely hindered our understanding and treatment of the disease. This research project aims to develop a model of stroke in the sheep using a surgical approach that future researchers may use and adapt to further explore the physiology of the disease and trial therapeutic techniques to treat stroke.
Glial Reactivity During The Post-acute Phase Of Stroke: A Target For Promoting Functional Recovery
Funder
National Health and Medical Research Council
Funding Amount
$547,307.00
Summary
Recent studies suggest that the development of a type of scar around damaged tissue in the brain following a stroke can limit recovery. Our studies will improve understanding of events leading to scar formation and will test whether modifying these events can improve functional recovery in experimental stroke. The studies have excellent potential to identify targets for treatments that will reduce the long-term debilitating effects of stroke even when administered well after its onset.