Development Of A Safer New Treatment For Systemic Lupus Erythematosus That Preserves B Cell Immunity
Funder
National Health and Medical Research Council
Funding Amount
$672,008.00
Summary
Lupus is an illness characterized by the body’s immune system attacking the body itself. More than 5 millions of people worldwide suffer from lupus, in particular Indigenous Australians who are 4 times more likely to develop lupus. Current treatments are toxic and/or lack efficacy. In this proposal we use strong new evidence from the laboratory to support the design of a much safer and more effective treatment for lupus that will be validated for future use in patients.
Development Of Stable Human Antibody Phage Display Libraries
Funder
National Health and Medical Research Council
Funding Amount
$539,644.00
Summary
Antibodies are blockbuster therapeutics for the treatment of cancer and inflammation. Unfortunately, they often display limited stability which greatly hinders development and production. This project focuses on the construction of large libraries of stable antibodies, thereby streamlining the development of new therapeutics.
Stability Engineering Of Human Antibody Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$421,104.00
Summary
Therapeutic monoclonal antibodies are among the fastest growing class of drugs with more than $30 billion sales in 2011. Unfortunately, antibodies often display limited stability and a tendency to aggregate. This greatly hinders their development and results in high failure rates of otherwise promising candidates. We have recently identified mutations that render human antibodies resistant to aggregation. Here we apply this technology to a monoclonal antibody candidate developed by a leading pha ....Therapeutic monoclonal antibodies are among the fastest growing class of drugs with more than $30 billion sales in 2011. Unfortunately, antibodies often display limited stability and a tendency to aggregate. This greatly hinders their development and results in high failure rates of otherwise promising candidates. We have recently identified mutations that render human antibodies resistant to aggregation. Here we apply this technology to a monoclonal antibody candidate developed by a leading pharmaceutical company.Read moreRead less
Development Of A High Acuity, Diamond Retinal Prosthesis
Funder
National Health and Medical Research Council
Funding Amount
$1,010,214.00
Summary
Over recent years our team has developed a retinal implant to restore sight to people with certain types of blindness. With 256 independently controllable electrodes this device is among the most sophisticated in the world. We aim to conduct experiments to demonstrate that our device can provide improved better visual acuity than the world leaders with a view to developing a competitive commercial medical technology.
Compound Culture Media To Improve Human IVF Pregnancies
Funder
National Health and Medical Research Council
Funding Amount
$254,340.00
Summary
In Australia 1 in 6 couples require IVF to conceive. Although pregnancy rates have improved over the last 10 years the live birth rate in Australia per cycle is only 17%. This project will assess a new method for the culture of embryos for the ability to maintain embryo vitality and produce healthy babies.
Development Of A Novel Microfluidic Device To Treat Male Infertility
Funder
National Health and Medical Research Council
Funding Amount
$508,397.00
Summary
This research aims to develop a novel technology for the separation of high quality sperm. It is envisaged this will replace existing technology to improve the reproductive outcomes of both humans, as well as animals.
From The Synchrotron To The Clinic: Translation Of A Novel Functional Lung Imaging Technology
Funder
National Health and Medical Research Council
Funding Amount
$891,834.00
Summary
Our team has recently developed a synchrotron technology with a startling capacity for dynamic functional imaging that can act as a sensitive regional indicator of lung disease. We will demonstrate that this technology can be translated from the synchrotron to the lab and eventually the clinic. We will provide proof of this concept by the application of this technology to emphysema, asthma, lung cancer, cystic fibrosis lung disease and neonatal resuscitation.