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Biocompatible Synthetic Conduits To Treat Vascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$421,818.00
Summary
Clinically available synthetic conduits used in vascular repair and bypass are fundamentally incompatible with the vasculature. They cause inflammation at the site of implantation and increase the risk of blood clots forming. We have developed a unique method of binding bioactive protein layers to the surface of all polymeric materials and have shown a significant improvement in their compatibility. Grafts coated using our technology stand to dramatically improve the treatment of vascular diseas ....Clinically available synthetic conduits used in vascular repair and bypass are fundamentally incompatible with the vasculature. They cause inflammation at the site of implantation and increase the risk of blood clots forming. We have developed a unique method of binding bioactive protein layers to the surface of all polymeric materials and have shown a significant improvement in their compatibility. Grafts coated using our technology stand to dramatically improve the treatment of vascular disease.Read moreRead less
Preclinical Validation Of First In Man Endovascular Brain Machine Interface Device
Funder
National Health and Medical Research Council
Funding Amount
$870,000.00
Summary
The stentrode technology has been given significant public attention, following publication in the fourth highest impact factor journal 'Nature Biotechnology' and a public statement of endorsement by the President of the United States in 2016. The program now seeks to conduct a preclinical validation program to satisfy the FDA in its requirements to provide Investigational Device Exemption (IDE).
Development Of Endovascular Stents With Proactive Biocompatibility
Funder
National Health and Medical Research Council
Funding Amount
$428,470.00
Summary
Metallic cardiovascular implants, such as stents, used in the treatment of heart disease are not compatible with blood. They cause inflammation at the site of implantation and increase the risk of blood clots forming. We have developed a unique method of binding bioactive protein layers to the surface of metal alloys, and shown a significant improvement in their compatibility. Stents coated using our technology stand to dramatically improve the treatment of cardiovascular disease.
Validating A Prototype Laser System For Intraocular Surgery
Funder
National Health and Medical Research Council
Funding Amount
$495,551.00
Summary
Intraocular surgery is a vital tool for treating common sight threatening diseases such as proliferative diabetic retinopathy and retinal vein occlusion. We seek to develop a prototype laser system to replace currently used mechanical instruments. We have demonstrated that UV laser ablation can afford much greater precision. Laser parameters for the new system will be optimised based on our previous achievements. The new system will be tested in animal trials and clinically.
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.
We have discovered a single tumour factor which causes cancer cachexia, a wasting condition that is one of the worst complications of malignancy, for which there is no current effective treatment. We have developed antibodies which effectively block this condition in preclinical models and have produced human/humanised version of this. This application is to characterise these human antibodies to allow us proceed to clinical trials.