Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989471
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Facility for innovation in structural biomaterials engineering. Biomaterials are used in a diverse range of environments that impact on the way that all Australians live. The Facility for Innovation in Structural Biomaterials Engineering will greatly assist researchers to undertake cross-disciplinary projects aimed at improving human health eg. smart materials that assist stem cell therapies for treating deafness and spinal cord injuries, as well the way we live eg. more durable building materia ....Facility for innovation in structural biomaterials engineering. Biomaterials are used in a diverse range of environments that impact on the way that all Australians live. The Facility for Innovation in Structural Biomaterials Engineering will greatly assist researchers to undertake cross-disciplinary projects aimed at improving human health eg. smart materials that assist stem cell therapies for treating deafness and spinal cord injuries, as well the way we live eg. more durable building materials for a sustainable national infrastructure. The facility will help Australia remain at the forefront of these high priority areas and see both individuals and industry benefit from advanced biomaterial products.Read moreRead less
Mastering the Microenvironment - Integrated, functional, biosynthetic scaffolds for tissue engineering. Organ transplantation is available to only the lucky few, with, for example, less than 3000 of Australia's annual 30,000 patients suffering end-stage renal failure receiving transplants. Tissue engineering of soft, functional tissues using in vitro and/or in vivo methods offers the potential to replace missing or non-functioning tissues, such as liver, pancreas, lung, heart, fat and muscle, wi ....Mastering the Microenvironment - Integrated, functional, biosynthetic scaffolds for tissue engineering. Organ transplantation is available to only the lucky few, with, for example, less than 3000 of Australia's annual 30,000 patients suffering end-stage renal failure receiving transplants. Tissue engineering of soft, functional tissues using in vitro and/or in vivo methods offers the potential to replace missing or non-functioning tissues, such as liver, pancreas, lung, heart, fat and muscle, with newly created tissue. This project will deliver integrated, functional polymeric scaffolds for organ replacement. Over 12 higher degree candidates and one research associate will be trained in the field of tissue engineering, representing a significant benefit to the Australian scientific community.Read moreRead less