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.
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.
Dissecting The Great Ophthalmic Masquerade: The Global Giant Cell Arteritis Genomics Consortium.
Funder
National Health and Medical Research Council
Funding Amount
$583,269.00
Summary
Giant cell arteritis (GCA) is the most common form of vasculitis in people over 50 years of age. If untreated it can cause catastrophic complications including blindness, though this can be prevented if treated early. Although there is clear evidence for a role of genetic factors in GCA, these have been little studied. We have established an Australian-led International consortium, with clinical, basic science and statistical expertise to thoroughly investigate this devastating disease.
High Penetrance Deleterious Mutations In Blinding Glaucoma
Funder
National Health and Medical Research Council
Funding Amount
$1,345,055.00
Summary
This project aims to identify the genes most commonly mutated in individuals with advanced glaucoma. Identification of such genes will lead to improved understanding of glaucoma pathogenesis, a better ability to predict risk, and the identification of drug targets for novel therapies.
Translating Genetic Determinants Of Glaucoma Into Better Diagnosis And Treatment
Funder
National Health and Medical Research Council
Funding Amount
$9,466,000.00
Summary
Glaucoma is the leading cause of irreversible blindness worldwide. By 2020, it will affect 80 million people, and in Australia over the next decade, the overall cost of glaucoma will reach $4.3 billion per annum. This Program will use genetic advances to personalise treatment. Blindness will be prevented in individuals at highest risk, new ways to treat patients will be developed, and better outcomes for patients will result from less treatment and monitoring of low risk cases.
Development Of A Novel Bioengineered Tissue Construct For Repairing The Eye.
Funder
National Health and Medical Research Council
Funding Amount
$335,817.00
Summary
Corneal diseases are often treated using donor tissue transplants. Nevertheless, donor tissue is unsuitable for treating the peripheral or limbal margin of the cornea. We have therefore developed a way to transplant sheets of limbal tissue (epithelium) grown in the laboratory from a patient's own cells, but this tissue lacks a foundation of connective tissue that we believe is essential for sustained healing. Thus, our aim is to develop a novel limbal transplant which contains both layers.
A Genome-wide Association Study In 2000 Glaucoma Cases With Matched Controls Using Equimoloar DNA Pools
Funder
National Health and Medical Research Council
Funding Amount
$610,267.00
Summary
Glaucoma is a common cause of loss of vision worldwide but we are unable to predict which people are at high risk of blindness. We aim to discover the genetic risk factors for glaucoma. We will use cutting edge genetic technology to assess the whole genome in thousands of patients with glaucoma. We hope to identify important new glaucoma genes, which could lead to the development of diagnostic tests and treatments which will provide the most cost-efficient ways to prevent glaucoma blindness.
Understanding Changes In The Mammalian Prenylome Induced By Statins And Prenyltransferase Inhibitors
Funder
National Health and Medical Research Council
Funding Amount
$566,308.00
Summary
Prenylation, the covalent attachment of isoprenoid lipids to proteins, is widespread in mammalian cells. Essential for a protein's normal function, it contributes to the progression of cancer and inflammation. We have developed a novel technology to identify all prenylated proteins in the cell. Aided by this method, we will analyse the effect of statins and anti-cancer drugs on protein prenylation. This will provide guidance in identifying a more effective clinical use for them.