Non-invasive Therapy For Keratoconus – Ultrasound Enhanced Delivery Of Riboflavin To Cornea For Transepithelial Corneal Collagen Crosslinking
Funder
National Health and Medical Research Council
Funding Amount
$600,658.00
Summary
Keratoconus is a degenerative eye disease which causes corneal thinning. The disease causes visual distortions & loss of vision, and is commonly treated with Corneal Cross-Linking. This involves scraping off the outer protective layer of the cornea so that treatment can be applied. This is painful for patients and carries many risks. This grant assists in the development of a device that is able to deliver the reagent in a painless, non-invasive, effective and safe way.
Low-Cost Portable Inhalation Therapy Platform For Needle-Free DNA-Based Influenza Vaccination
Funder
National Health and Medical Research Council
Funding Amount
$524,644.00
Summary
Influenza affects a large proportion of the global population and can result in many deaths in a pandemic. A DNA influenza vaccine overcomes the possibility of severe side effects associated with commonly used vaccines based on weakened viruses and can be rapidly produced and easily transported without refrigeration. DNA vaccines are however unstable and difficult to deliver. We propose to address this with a low-cost and portable handheld device which allows the vaccine to simply be inhaled.
Achieving Targeted Delivery Of Drugs To Uterine Muscle In Women For The Prevention Of Preterm Labour
Funder
National Health and Medical Research Council
Funding Amount
$469,008.00
Summary
We have patented liposomes targeted to the uterus, which enable us to deliver drugs specifically to the muscle cells of the uterus, increasing safety. The liposomes can be loaded with drugs that either block or promote contractions, creating a versatile drug delivery system that could treat premature labour or postpartum haemorrhage which are major clinical problems. We seek support to demonstrate their effectiveness in mouse and primate models of preterm labour prior to human studies.
Targeting Cystic Fibrosis Using A Novel Inhalation Therapy
Funder
National Health and Medical Research Council
Funding Amount
$421,545.00
Summary
Currently treatments for cystic fibrosis infection are via oral, intravenous or lengthy inhalation processes. This can lead to significant side effects, consequent poor patient compliance, and limited therapeutic efficacy. We will develop and test a novel high-dose inhalation dry power device containing an antibiotics for the rapid treatment of infection in cystic fibrosis therapy.
A New Approach For The Treatment Of COPD And Lung Cancer Using Inhaled Retrometabolic HSP90 Inhibitors
Funder
National Health and Medical Research Council
Funding Amount
$638,310.00
Summary
The inflammatory lung disease Chronic Obstructive Pulmonary Disease (COPD) is a major disease burden in Australia with over 1 million sufferers and being the fourth biggest killer. Lung cancer is one of the most difficult cancers to treat with 5-year survival rates being below 20%. There is a pressing need for new therapies to treat these diseases and this project will develop new drugs designed to inhibit an underlying mechanism present in both diseases, with minimal side-effects.
Manufacture And Testing Of Next Generation Orthopaedic Implants Harnessing Periosteum's Regenerative Power
Funder
National Health and Medical Research Council
Funding Amount
$508,314.00
Summary
Tissue defects, e.g. due to trauma or tumor removal, are too large to heal without reconstructive surgery. Complications associated with defect repair may diminish the patient's quality of life and productivity, posing significant medical and psychosocial costs. Here we propose a plan to define technical specifications for next generation, "smart" orthopaedic implants that deliver cells and the signals they need to build new tissue using nature's paradigms.
Preclinical Development Of A Therapeutic Anticancer Antibody To C-Met
Funder
National Health and Medical Research Council
Funding Amount
$435,530.00
Summary
Many common cancers cannot be effectively treated. A range of these cancers (e.g. gastric and lung cancer) display the molecule c-Met on their cell surface. c-Met promotes tumour growth; therefore, blocking c-Met is a promising strategy for treating these cancers. However, no antibodies or drugs that target c-Met have been licensed. The therapeutics that are being developed to target c-Met all have considerable limitations. Thus, there is an opportunity to develop a 'best-in-class' therapeutic.
Sortase Peptide Technology: Enzymatic Site-specific Bioconjugation To Improve Antibody Drug Conjugate Production And Performance
Funder
National Health and Medical Research Council
Funding Amount
$402,046.00
Summary
Cancer is characterised by uncontrolled cell growth, leading to invasion and destruction of adjacent tissues. It is a major cause of death in Australia. Targeted drug delivery is an attractive therapeutic strategy that has the potential to lower systemic drug concentrations and reduce side effects. We are developing more efficient cancer drugs.
Potent Antibiotics Against Drug-resistant Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$531,410.00
Summary
Tuberculosis (TB) is a significant killer and caused 1.7 million deaths in 2009. The disease affects all countries, including Australia, in which the incidence in the indigenous population is 14 times higher than that in the non-indigenous population. We will develop a new anti-TB drug that can replace or enhance the current drugs that are not effective against drug resistant TB.
CSI-Sydney: New Technologies To Treat Chronic Sinus Infection
Funder
National Health and Medical Research Council
Funding Amount
$412,213.00
Summary
Chronic sinus infection (CSI) is prevalent and results in severe discomfort and pain for many Australians; yet amazingly, has no specific cure or effective treatment. Our multi-disciplinary research team and an Australian health and medical research company, (AFT Pharmaceuticals) have partnered to develop a novel device that specifically targets the sinuses and a formulation capable for simultaneously removing mucus, dispersing biofilms and killing bacteria in the nasal cavities.