Design Optimisation for Fabrication of Ceramic Prosthetic Devices. The project aims to develop computer aided design and fabrication for ceramic prosthesis. It will help establish a world-class biomedical instrumentation company having part of its research and development in Australia. The study will not only foster domestic research expertise, but also provide the local prosthetic community and biomedical industry with an opportunity to participate in further innovation of biomaterials, biomedi ....Design Optimisation for Fabrication of Ceramic Prosthetic Devices. The project aims to develop computer aided design and fabrication for ceramic prosthesis. It will help establish a world-class biomedical instrumentation company having part of its research and development in Australia. The study will not only foster domestic research expertise, but also provide the local prosthetic community and biomedical industry with an opportunity to participate in further innovation of biomaterials, biomedical software and equipment. The outcomes will directly benefit the Australian prosthetic profession. Improvement in prosthesis restorative longevity for our increasing ageing population will support the national research goal of ageing well, ageing productively.Read moreRead less
Silk Fibroin Optofluidic Chips. Unlike any other material, even any other biologically occurring material, silk is unique in being very transparent, able to be shaped on a very small scale and can keep natural chemicals like proteins and enzymes active. This project will use silk to make optical devices and sensors. Optics made from silk will have all these properties, which means that they can be used as sensors and devices in biochemistry applications that have never been possible before. Thes ....Silk Fibroin Optofluidic Chips. Unlike any other material, even any other biologically occurring material, silk is unique in being very transparent, able to be shaped on a very small scale and can keep natural chemicals like proteins and enzymes active. This project will use silk to make optical devices and sensors. Optics made from silk will have all these properties, which means that they can be used as sensors and devices in biochemistry applications that have never been possible before. These cost-effective devices will have the potential to enhance healthcare, emergency medicine and assist early medical diagnosis.Read moreRead less
Functional Electronic Stimulation of Muscles - Development of a Model for Sensory Feedback to Amputees and Vision for the Blind. Electrical stimulation of nerve fibres is an emerging physiological technique with great promise towards rehabilitation. The field lacks techniques for detailed, focal application of stimuli to recruit specific fibres for fine muscle control or conveying useful neurosensory information. The investigator has developed microtechnology for delivering stimuli to 100 sites, ....Functional Electronic Stimulation of Muscles - Development of a Model for Sensory Feedback to Amputees and Vision for the Blind. Electrical stimulation of nerve fibres is an emerging physiological technique with great promise towards rehabilitation. The field lacks techniques for detailed, focal application of stimuli to recruit specific fibres for fine muscle control or conveying useful neurosensory information. The investigator has developed microtechnology for delivering stimuli to 100 sites, conceivably facilitating recruitment of specific fibres within a given bundle. Effects of muscle stimulation are readily measured and shall be used to model and refine techniques for generic high-resolution fibre recruitment. Benefits include, improved muscle control in functional electrical stimulation, sensory perception for amputees and patterned vision from optic nerve stimulation.Read moreRead less
Development Of An Antibody-targeted Drug/miRNA/peptide Delivery System For Effective Prevention Of Restenosis
Funder
National Health and Medical Research Council
Funding Amount
$319,064.00
Summary
The re-blocking of vessels after surgery occurs up to 50% of patients, and none of the preventive approaches are cost-effective and safe enough. This project aims to develop a nano-scaled therapeutics delivering combination therapies to effectively prevent the re-blockage after surgery. If successful, this research will present a whole new range of therapeutic agent that prevents the patient from developing clots after surgery, improving the productivity and health of patients with reduced cost.
Growth of Bioartificial Tissue Containing an Inbuilt Blood Supply. The large and growing demand for replacement tissues and organs has spurred rapid growth in the emerging field of tissue engineering, which aims to form new tissues in the laboratory by combining living cells and synthetic scaffolds. A major challenge lies in the production of thick tissues, which require a blood supply in order to survive. Uniquely, this project aims to grow in the laboratory a vascular system based on natural ....Growth of Bioartificial Tissue Containing an Inbuilt Blood Supply. The large and growing demand for replacement tissues and organs has spurred rapid growth in the emerging field of tissue engineering, which aims to form new tissues in the laboratory by combining living cells and synthetic scaffolds. A major challenge lies in the production of thick tissues, which require a blood supply in order to survive. Uniquely, this project aims to grow in the laboratory a vascular system based on natural structures, which can then be used to support new tissue growth. Australia is well placed to reap the rewards of this work, having a track record in commercialisation of medical technologies, resulting in an improved quality of life for many Australians and substantial direct and indirect economic benefits.Read moreRead less
Titanium Implants With Dual Micro- And Nano-Scale Topography For Electrically Stimulated Osteogenic And Antibacterial Functions
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
The long-term success of titanium implants in high-risk patients (especially diabetics) is compromised and the current project aims to address this by developing nano-engineered therapeutic titanium implants. With appropriate multi-scale roughness, enhanced bioactivity, local antibiotic release and electrical stimulation to further enhance these features, the project aims at patient outcomes, while allowing easy integration into the current implant market.
NEW INSIGHTS IN TREATMENT AND DIAGNOSIS OF GLAUCOMA
Funder
National Health and Medical Research Council
Funding Amount
$419,180.00
Summary
Effective treatment of glaucoma and understanding the exact mechanism of cell death in glaucoma still remain challenging. Here I utilize a smart nanoparticle that could recognize sick cells followed by releasing drugs only to cells that are stressed and need the drug. High-resolution microscopy can map the detailed activity in retina after drug treatments. By doing so, we develop a novel way to deliver drugs to diagnose and treat glaucoma.
Bioengineered bioscaffolds for Achilles tendinopathy treatment. The purpose of the project is to improve outcomes following the surgical treatment of Achilles tendinopathy. The expected outcome is the development in animals of new ways to design tissue engineered bioscaffolds for the surgical repair of Achilles tendinopathy.
Novel Strategy For The Treatment Of Large Bone Defects Using A Unique Biomaterial With Tailored Microstructure
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
There is a rapidly increasing and pressing medical need for the development of synthetic implants that can regenerate large amounts of lost or diseased bone. This project will produce a unique implant with optimal mechanical and biological performance, which represents a viable alternative to bone grafting with broad applications for the repair of large or challenging bone defects. Such an achievement will produce significant healthcare benefits and improved long-term outcomes.
Multiscale Study on Biomechanical Roles of Soft Tissue on Bone Remodelling. The project aims to increase our knowledge of the processes of bone remodelling and the role of soft tissue in this process. Mechanical force is a key stimulus for regulating bone remodelling. A significant question in biomechanics is why orthodontics only use very small forces (1 Newton) to generate significant oral bone remodelling, whereas prosthodontics that apply three orders of magnitude higher forces (~1000 Newton ....Multiscale Study on Biomechanical Roles of Soft Tissue on Bone Remodelling. The project aims to increase our knowledge of the processes of bone remodelling and the role of soft tissue in this process. Mechanical force is a key stimulus for regulating bone remodelling. A significant question in biomechanics is why orthodontics only use very small forces (1 Newton) to generate significant oral bone remodelling, whereas prosthodontics that apply three orders of magnitude higher forces (~1000 Newton) do not move dental implants. This project aims to develop new multiscale modelling and remodelling techniques in computational mechanics to explore the roles played by connective soft tissue in bone adaptation. Expected project outcomes would increase our understanding in biomechanics and affect health care disciplines such as orthodontics, prosthodontics and orthopaedics.Read moreRead less