Glucocorticoids (or 'steroids') are among the most commonly used drugs in the world, chiefly used for inflammatory diseases. However, they have major predictable side effects that have been known for over 60 years. Science has, til now, failed to deliver an alternative that delivers the effects of steroids without the side effects. This application is for funds to support the development of the discovery of the protein known as GILZ towards a treatment to help patients.
Cachexia is a major side effect of cancer, resulting in significant muscle wasting, fat loss and organ failure. Up to 80% of cancer patients suffer and 25% succumb to this condition. This significantly affects the treatment regimens of cancer patients and affects their quality of life. We have developed monoclonal antibodies that block and reverse cachexia in preclinical mouse cancer models. Our aims are to humanise the antibody and manufacture it for the first clinical trial in humans.
Development Of A Novel Drug For Chronic And Infected Wounds
Funder
National Health and Medical Research Council
Funding Amount
$482,362.00
Summary
Chronic wounds affect more than 9 million people worldwide and demand for wound care is increasing. The annual cost to healthcare systems in the US and Australia in treating such wounds is US$25 billion and AU$3 billion, respectively, and there is urgent need for more effective approaches.
Dengue virus is the most important mosquito-borne viral disease, with 2/3 of the world's population at risk. There is currently no treatment available for dengue. Our proposal aims to progress a safe and effective new treatment (4-HPR) against Dengue towards the clinic, generating all the required pharmacokinetic and pre-clinical animal data necessary to progress to a future clinical trial in humans. We will also investigate the use of 4-HPR as a dengue preventative.
Robotic Surgical System For Image Guided Non-invasive Focused Ultrasound Induced Ablation Of Liver Cancers
Funder
National Health and Medical Research Council
Funding Amount
$582,231.00
Summary
According to National Cancer Institute, liver and bile duct cancers are the fifth most common cancer in men and the seventh in women. Due to poor prognosis involving surgery, radiotherapy and chemotherapy, our aim is to develop a novel image-guided, radiation-free, non-invasive robotic HIFU system with means for compensation of organ movement during treatment. The objective is to produce damage to the target in a predictable and reproducible manner while sparing overlying surrounding tissues.