Cellular And Molecular Mechanisms Of Transcutaneous Immunisation
Funder
National Health and Medical Research Council
Funding Amount
$190,490.00
Summary
Vaccines are among the most effective medical interventions. The recent discovery that cholera toxin, when applied to the normal skin of humans and laboratory animals, stimulates powerful and protective immune responses to itself, and to other proteins has opened up the possibility of needle-free vaccines in the form of skin patches. How CT brings about this effect is currently unknown. We have discovered that the immune stimulating effect of CT depends upon the production of an immune protein ( ....Vaccines are among the most effective medical interventions. The recent discovery that cholera toxin, when applied to the normal skin of humans and laboratory animals, stimulates powerful and protective immune responses to itself, and to other proteins has opened up the possibility of needle-free vaccines in the form of skin patches. How CT brings about this effect is currently unknown. We have discovered that the immune stimulating effect of CT depends upon the production of an immune protein (cytokine) called tumour necrosis factor (TNF). TNF is known to activate specialised immune cells within the skin (Langerhan's Cells ) and we hypothesise that the interaction beween CT and LC via TNF is the pathway to the potent immune response. In this project we propose to investigate the cells and molecules involved in the immune effects of CT in the skin with a view to the development of new skin based vaccine strategies.Read moreRead less
Elastaderm: An Improved Human Skin Substitute For Treating Burns
Funder
National Health and Medical Research Council
Funding Amount
$326,316.00
Summary
We will focus on proof of concept needed for the commercialisation of improved dermal replacements designed to repair severe skin burns. These novel dermal replacements are a substantial development of and improvement beyond existing technology because they are intended to reduce wound contraction and increase elasticity.
Pre-clinical Evaluation Of Nano-membrane Dressings To Promote Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$188,600.00
Summary
This project will investigate whether a novel type of wound dressing can promote faster wound healing and reduce scarring. Time taken to heal is one of the best predictors of whether a wound will heal with significant scarring. The faster wounds heal the better. We have identified a new dressing with specific nano-scale pores that may promote faster healing. This dressing will be tested in the best model of human wound healing with the potential to progress to clinical trials if successful.
Development And Pre-clinical Evaluation Of A Novel Wound Dressing Treatment For Chronic Ulcers
Funder
National Health and Medical Research Council
Funding Amount
$125,040.00
Summary
Chronic leg ulcers are a common, painful and costly reality for many Australians, impacting on sufferers' mobility, social interactions and overall quality of life. This research is directed at developing a novel cost-effective wound dressing for treatment of this condition. This will be achieved through neutralising the ulcer's toxic proteolytic environment through an interactive wound dressing. This then will allow the body's own cells to promote wound healing.
A ROBOTIC MICRO DRAINAGE SURGERY FOR GLAUCOMA (A BIOLOGICAL MICROFISTULA AND IMPLANTATION METHOD AND APPARATUS)
Funder
National Health and Medical Research Council
Funding Amount
$441,020.00
Summary
Glaucoma is a major cause of blindness in our community. We are developing a new surgical procedure to treat glaucoma. The technique is based on the implantation of a tiny drainage tube inside the eye. This allows the eye's natural fluid to escape at the required rate. Insufficient drainage, or over production of fluid in the eye's of glaucoma patients is responsible for the high pressures inside the eye that characterise this disease. A simple, safe, and reliable surgical procedure to lower int ....Glaucoma is a major cause of blindness in our community. We are developing a new surgical procedure to treat glaucoma. The technique is based on the implantation of a tiny drainage tube inside the eye. This allows the eye's natural fluid to escape at the required rate. Insufficient drainage, or over production of fluid in the eye's of glaucoma patients is responsible for the high pressures inside the eye that characterise this disease. A simple, safe, and reliable surgical procedure to lower intraocular pressure would be a major benefit to the almost 67 million glaucoma patients worldwide, and would relieve the current need for lifelong medication.Read moreRead less
The Development Of A Cross-strain And Cross-subtype Pre Pandemic Influenza Vaccine Using Savine Technology
Funder
National Health and Medical Research Council
Funding Amount
$159,500.00
Summary
The flu vaccines in use today work by inducing antibodies to surface proteins. Flu causes disease every year but occasionally a new strain arises that is distincly differnet from previous strains and can cause wides spread disease and deaths worldwide. Our new approach is to increase the level of T cells that can recognise and kill flu infected cells from all flu strains.
Development Of A Computer-based Retinal Imaging Program For Identification Of People At Risk Of Cardiovascular Disease.
Funder
National Health and Medical Research Council
Funding Amount
$254,714.00
Summary
Cardiovascular disease is the leading cause of death and imposes an enormous financial and healthcare burden on the Australian community. This project will develop and deliver a novel clinical prediction tool, incorporating retinal vascular imaging and assessment, to improve identification of asymptomatic people who are at high risk of cardiovascular disease at an early stage, allowing implementation of preventative strategies and medical interventions to effectively prevent CV disease.
RNA Interference In Model Systems Of Macular Degeneration.
Funder
National Health and Medical Research Council
Funding Amount
$166,500.00
Summary
Exudative age-related macular degeneration (AMD) is the most common cause of irreversible severe vision loss in the elderly, with an estimated 25-30 million people worldwide blind due to AMD. There is currently no standard treatment for AMD. A safe, specific and effective pharmacologic agent for AMD, therefore, has enormous therapeutic, social and economic benefits. AMD is underpinned by vascular leakiness and new blood vessel formation. We have demonstrated that Egr-1, a nuclear transcription f ....Exudative age-related macular degeneration (AMD) is the most common cause of irreversible severe vision loss in the elderly, with an estimated 25-30 million people worldwide blind due to AMD. There is currently no standard treatment for AMD. A safe, specific and effective pharmacologic agent for AMD, therefore, has enormous therapeutic, social and economic benefits. AMD is underpinned by vascular leakiness and new blood vessel formation. We have demonstrated that Egr-1, a nuclear transcription factor, plays a key regulatory role in a diverse array of angiogenic processes. In this project, we will use novel gene-targeting agents (Egr-1 siRNA) to provide preclinical proof-of principle evidence of their therapeutic potential in established animal models of AMD. These studies will pre-empt Phase IA safety trials in AMD patients.Read moreRead less