Broad spectrum nanomedicine for Meningitis treatment. Brain inflammatory diseases are among the top ten infectious causes of death. The project aims to provide Australian doctors with a superior alternative of treating infections that do not respond to conventional antibiotics. The nanomedicine developed will reduce the burden of hospital and boost Australia economy in the biomedical sector.
Biomaterials with multifaceted tunability and bio-specificity. Polyurethanes, a family of polymers with independently tunable mechanical and biodegradation properties, will be developed as a versatile platform material for biomedical implants. Novel energetic ion treatments that allow the coupling of bioactive agents to surfaces will eliminate adverse reactions and enable integration with surrounding tissue.
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.
Biochemistry of tropoelastin and elastin. Elastin is the main protein responsible for the elasticity of vertebrate tissues. The Weiss Lab makes large quantities of full-length tropoelastin, which is crosslinked to make elastin. We want to examine the biochemistry of tropoelastin, learn how its domains participate in elastin structure and assembly, and explore cellular responses to our synthetic elastin biomaterial. Remarkably little is known of this biochemistry because elastin is a highly cross ....Biochemistry of tropoelastin and elastin. Elastin is the main protein responsible for the elasticity of vertebrate tissues. The Weiss Lab makes large quantities of full-length tropoelastin, which is crosslinked to make elastin. We want to examine the biochemistry of tropoelastin, learn how its domains participate in elastin structure and assembly, and explore cellular responses to our synthetic elastin biomaterial. Remarkably little is known of this biochemistry because elastin is a highly cross-linked and substantially insoluble macroscopic network of tropoelastin multimers. Our availability of tropoelastin and synthetic elastin now makes these studies possible.Read moreRead less
Bioactive Polymers for Wound Healing Applications. VitroGroR is a growth factor complex which enhances cell growth and migration, and hence has great potential for treating wounds. Tissue Therapies, which holds the rights to commercialization of VitroGroR, is seeking to develop methods of delivering VitroGroR in its active form to the wound environment. Two solutions to this problem will be developed in this project; a bioactive bandage containing a novel combination of microspheres and a hydrog ....Bioactive Polymers for Wound Healing Applications. VitroGroR is a growth factor complex which enhances cell growth and migration, and hence has great potential for treating wounds. Tissue Therapies, which holds the rights to commercialization of VitroGroR, is seeking to develop methods of delivering VitroGroR in its active form to the wound environment. Two solutions to this problem will be developed in this project; a bioactive bandage containing a novel combination of microspheres and a hydrogel matrix, and secondly an in-situ polymerisable matrix for treatment of deep wounds. The growth factor complex will be protected from aggressive proteases through encapsulation within microspheres, and the use of MMP-inhibiting comonomers.Read moreRead less
Molecularly engineered cell-instructive hydrogels for enhanced tissue regeneration. The outcomes of this project will be relevant to range of wounds, including burns, bed-sores, and diabetic and venous ulcers. Clearly, innovation in wound healing is urgently required as the treatment of wounds represents a significant challenge at all levels of our society, in terms of cost (physical, emotional and financial) to patients, the economy and to the wider community. Despite this obvious and overwhelm ....Molecularly engineered cell-instructive hydrogels for enhanced tissue regeneration. The outcomes of this project will be relevant to range of wounds, including burns, bed-sores, and diabetic and venous ulcers. Clearly, innovation in wound healing is urgently required as the treatment of wounds represents a significant challenge at all levels of our society, in terms of cost (physical, emotional and financial) to patients, the economy and to the wider community. Despite this obvious and overwhelming need, research in wound healing is relatively under-developed and has yet to adopt modern biotechnology and biomaterials approaches. This project is therefore directed at generating cost-effective frontier wound dressing technologies that accelerate wound repair.Read moreRead less
New Materials for an Implantable Blood Pump. Rotary blood pumps are at the leading edge of heart assist technology. VentrAssist has developed an innovative rotary blood pump with a hydro-dynamically suspended impeller. Advanced surface modifications will enable the device to be fabricated from polymers; this will make the device light, more compatible with the human body and less costly to produce. Surface treatments and coatings will be applied using ion implantation, to impart the required ....New Materials for an Implantable Blood Pump. Rotary blood pumps are at the leading edge of heart assist technology. VentrAssist has developed an innovative rotary blood pump with a hydro-dynamically suspended impeller. Advanced surface modifications will enable the device to be fabricated from polymers; this will make the device light, more compatible with the human body and less costly to produce. Surface treatments and coatings will be applied using ion implantation, to impart the required dimensional stability, impermeability and wear resistance. Following sophisticated experiments of modified materials, the best candidates will be used in prototype devices, for final selection of the optimal materials for the new device.Read moreRead less
Hydrogel systems for effective encapsulation of functional pancreatic islet cells. This proposal addresses the problem of maintaining viability and function of cells encapsulated within an immuno-isolation barrier material. The research will develop biosynthetic materials that are able to meet design criteria for an effective biomaterial for this application. The major benefits to Australia will be in improved health outcomes by providing safer, more efficacious materials, economic growth develo ....Hydrogel systems for effective encapsulation of functional pancreatic islet cells. This proposal addresses the problem of maintaining viability and function of cells encapsulated within an immuno-isolation barrier material. The research will develop biosynthetic materials that are able to meet design criteria for an effective biomaterial for this application. The major benefits to Australia will be in improved health outcomes by providing safer, more efficacious materials, economic growth development of the Australian Medical Device industry and in high level training of researchers in this field.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100398
Funder
Australian Research Council
Funding Amount
$410,507.00
Summary
How T cells modulate stem cells and tissue regeneration. The project aims to determine how T cells modulate tissue repair and regeneration in mammals. Most of the mechanisms modulating the healing of tissues are elusive. This research is expected to reveal unknown mechanisms controlling the processes of tissue repair and regeneration, particularly the nexus between the stem cells involved in the tissue healing process and the immune response .
The Scale-up and Evaluation of a Novel Dense Gas Technology Platform for the Production of Particles for Aerosol Drug Delivery. This project provides a unique opportunity to develop an Australian-invented technology in particle engineering, enabling it to enter the international pharmaceutical market. This will enhance the growth of Australia's pharmaceutical research and development, and benefit the Australian pharmaceutical industry. The outcome will also contribute to improvements in the heal ....The Scale-up and Evaluation of a Novel Dense Gas Technology Platform for the Production of Particles for Aerosol Drug Delivery. This project provides a unique opportunity to develop an Australian-invented technology in particle engineering, enabling it to enter the international pharmaceutical market. This will enhance the growth of Australia's pharmaceutical research and development, and benefit the Australian pharmaceutical industry. The outcome will also contribute to improvements in the health and well-being of Australians. The research falls within the Designated National Research Priority of Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less