Star Polymers As Novel Antimicrobial And Immunomodulatory Agents
Funder
National Health and Medical Research Council
Funding Amount
$945,908.00
Summary
The rise in antibiotic resistance in bacteria is considered as a major public health threat that is not being met by antibiotic research. This project will modify a novel star polymer that we have shown kills antibiotic resistant bacteria but does not induce resistance. The project will make and characterise new versions of the star polymer to produce antimicrobial materials that target and kill the multi-drug resistant bacteria that are a major cause of bacterial infections and death.
Innovative Antimicrobial Treatments For Successful Bone Allografts
Funder
National Health and Medical Research Council
Funding Amount
$473,706.00
Summary
Bone healing sites are commonly infected, and this is associated with adverse clinical and significant socioeconomic outcomes. These studies will determine whether our novel antimicrobials can be used to reduce bone infections by studying the combination of antimicrobials and bone in laboratory and bone fracture studies whilst minimising the potential of developing antibiotic resistance.
Building Tissue Engineered Flaps For Surgical Reconstruction
Funder
National Health and Medical Research Council
Funding Amount
$548,453.00
Summary
As a result of serious trauma, burns or cancer surgery, large areas of new skin may be required. Of the three major skin layers - epidermal and dermal replacements are available clinically, but the third layer - the underlying fat tissue layer is yet to be developed. This project has devised a novel product to rapidly recreate the skin fat layer and additionally rapidly grow new blood vessels in these layers which will enable excellent skin coverage in all forms of major skin loss.
Development And Evaluation Of Novel Antibacterial Coatings For The Prevention Of Infection On Biomedical Devices
Funder
National Health and Medical Research Council
Funding Amount
$284,402.00
Summary
This project aims to develop infection-resistant coatings that can be applied to a wide range of biomedical devices used in human health care. Novel antibacterial compounds from Australian plants (genus Eremophila) will be coated as thin layers onto model materials used for biomedical device fabrication, then onto real-life biomedical products and evaluated for ability to deter colonization by biofilm-forming human pathogenic bacteria.