Cultivated Corneal Endothelial Cell Implants For Restoring Vision
Funder
National Health and Medical Research Council
Funding Amount
$886,032.00
Summary
Thousands of Australians each year receive a corneal tissue transplant from the eyes of a deceased organ donor. In the majority of cases these transplants are performed to restore structure and function to the most posterior layer of the cornea – the corneal endothelium. The reliance upon donor tissue, however, presents significant logistical and safety issues. Our goal is therefore to develop improved strategies for treating diseases of the corneal endothelium using cultivated tissue implants.
A Novel Mesenchymal Stromal Cell And Biomaterial For Corneal Reconstruction
Funder
National Health and Medical Research Council
Funding Amount
$508,611.00
Summary
Our research group has identified a new cell type (L-MSC) with the potential to treat a variety of eye diseases. We have also developed a novel material from a protein found in silk, that has potential as a vehicle for delivering healthy cells into diseased eyes. The present project will build upon these promising results by evaluating the properties of L-MSC necessary for clinical use and by testing the feasibility of our new cell delivery system.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989436
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Multiphoton microscopy of living animals as a tool for immunology and cell biology studies. The multiphoton microscope will enable us to watch the growth, migration and interactions of cells in a living animal in response to changes in the cells' environment will give us better understanding of how we work as living machines, and what can go wrong with that process to make us unwell.
Hepatic Fibrogenesis In Paediatric Cholestatic Liver Disease.
Funder
National Health and Medical Research Council
Funding Amount
$254,250.00
Summary
Liver disease in children causes a significant impact on lifespan and quality of life. The commonest causes of liver disease in children are cholestatic, or diseases related to obstruction of bile flow out of the liver. In ways we are only beginning to understand, obstruction of bile flow stimulates liver scar formation which, if untreated, leads to replacement of normal liver tissue and ultimately to failure of the liver. In infants, the most common and serious cholestatic liver disease is bili ....Liver disease in children causes a significant impact on lifespan and quality of life. The commonest causes of liver disease in children are cholestatic, or diseases related to obstruction of bile flow out of the liver. In ways we are only beginning to understand, obstruction of bile flow stimulates liver scar formation which, if untreated, leads to replacement of normal liver tissue and ultimately to failure of the liver. In infants, the most common and serious cholestatic liver disease is biliary atresia. It develops at, or shortly after birth with progressive destruction of the bile ducts, responsible for transporting bile out of the liver. Without early diagnosis and surgery these infants develop progressive liver scarring leading to liver failure and death or liver transplantation within 1-2 years. It is the commonest reason for liver transplantation in children (55-60%) in the Western world. Even with successful surgery, most, if not all patients will come to liver transplantation over the subsequent 25 years because of ongoing, but slower, scar formation. In older children, diseases like cystic fibrosis cause bile duct blockages leading to progressive liver scarring that is slower and unpredictable, contributing to ill health in up to 20% of patients and death from end stage liver disease or liver transplantation in 5%. Using liver tissue from children with these two disorders we have been able to identify the key cells that control the liver scar process, the Hepatic Stellate Cell. We now need to investigate the role of bile constituents on the scar-forming process in these two diseases. We will utilise a well characterised animal model to investigate the influence of bile constituents on cells isolated from this model and apply these findings back to patient samples to determine their role in paediatric cholestatic liver disease. This will help us to better understand the disease process and importantly, develop more effective and earlier treatment.Read moreRead less
Role Of Chemoattractants In Hepatic Stellate Cell Recruitment And Fibrogenesis In Paediatric Cholestatic Liver Disease.
Funder
National Health and Medical Research Council
Funding Amount
$589,175.00
Summary
This project investigates how decreased bile flow in children's liver diseases such as cystic fibrosis and biliary atresia, leads to the release of molecules from the liver which cause recruitment of scar-forming cells. This results in cirrhosis (liver scar) and the necessity for liver transplantation. This project will investigate whether some children are more susceptible to liver scarring due to mutations in genes which cause increased release of these recruitment molecules from the liver.