The Significance Of Glial Dysfunction In Retinopathy Of Prematurity
Funder
National Health and Medical Research Council
Funding Amount
$311,567.00
Summary
Abnormalities in cells at the back of the eye called photoreceptors are associated with at least 50% of all cases of blindness in this country.This project will determine whether substances released from dying photoreceptors cause the death of neighbouring cells. In addition we will examine whether treatments that block the actions of these released substances can prevent the death of photoreceptors, thereby providing a novel therapeutic agent for the treatment of devastating eye diseases.
TRAFFICKING OF METABOLITES BETWEEN M LLER CELLS AND NEURONS IN DIABETIC RETINOPATHY.
Funder
National Health and Medical Research Council
Funding Amount
$211,320.00
Summary
Diabetes is the leading cause of blindness in the working population. In some diabetics, blood vessels within the retina proliferate, haemorrhage or cause retinal detachment. The underlying changes within the retina that lead to the proliferation of blood vessels are not well understood. One of the factors that leads to changes in retinal blood vessels is an incease in growth factors from cells in the retina called Muller cells. Muller cells are vital for the normal function of the retina, and a ....Diabetes is the leading cause of blindness in the working population. In some diabetics, blood vessels within the retina proliferate, haemorrhage or cause retinal detachment. The underlying changes within the retina that lead to the proliferation of blood vessels are not well understood. One of the factors that leads to changes in retinal blood vessels is an incease in growth factors from cells in the retina called Muller cells. Muller cells are vital for the normal function of the retina, and are known to be abnromal late in diabetes. They may also be dysfunctional early in diabetes and could play a significant role in the early chnages seen in diabetes. Therefore a good understanding of how Muller cells change and the time at which they change is vitally important to gain a better undetrstanding of the defects that are associated with diabetes. Furthermore, an understanding of the basic underlying cellular changes that occur in diabetes will aid the development of more specific therapeutic agents in the future.Read moreRead less
Astrocytes And Mural Cells In The Retina: Normal Development And Pathophysiology
Funder
National Health and Medical Research Council
Funding Amount
$679,616.00
Summary
The blood vessels that supply the nerve cells of the brain and retina are associated with support cells known as mural cells and astrocytes. Whereas astrocytes both ensure that the vessels do not leak and produce factors that induce vessel growth, mural cells control blood flow and are thought to promote vessel stability. We aim to characterise the development of astrocytes and mural cells as well as the interactions of these cells with blood vessels that influence vessel shape, growth, and loss ....The blood vessels that supply the nerve cells of the brain and retina are associated with support cells known as mural cells and astrocytes. Whereas astrocytes both ensure that the vessels do not leak and produce factors that induce vessel growth, mural cells control blood flow and are thought to promote vessel stability. We aim to characterise the development of astrocytes and mural cells as well as the interactions of these cells with blood vessels that influence vessel shape, growth, and loss. Aging is associated with changes in the vasculature of the central nervous system that confer a predisposition to certain conditions, such as dementia, caused by abnormal blood supply and consequent nerve cell death. We plan to investigate the contribution of astrocytes and mural cells to the vascular changes that accompany aging. These studies may lead to the development of interventions to prevent such changes and their associated pathologies. Finally, astrocyte degeneration is implicated in various neuropathological conditions, including dementia, Alzheimer's disease, and trauma. We aim to purify and characterise a population of astrocyte precursor cells whose transplantation might result in the repopulation of damaged regions of the central nervous system.Read moreRead less