The Herston Biofabrication Institute is a partnership between Metro North Hospital and Health Service, and QUT.
Opening in early 2020, the Herston Biofabrication Institute will advance knowledge and technology in 3D scanning, modelling and printing of bone, cartilage and other human tissue to repair tissue that is lost or damaged.
It will take a multidisciplinary approach, bringing together researchers from multiple scientific, clinical and industry disciplines at the Herston Health Precinct, one of Australia's largest integrated health, teaching and research precincts.
The institute will:
- transform how we provide health care by developing innovative personalised and automated treatments
- support the Advance Queensland agenda to transition the state's economy toward the jobs of the future
- grow Queensland's economy and scientific footprint, expanding advanced manufacturing and attracting industry engagement with research
- develop new interdisciplinary approaches to education and training for clinicians, scientists, engineers, mathematicians and entrepreneurs.
Transforming health care
Biofabrication uses a person's biological material, detailed 3D information about their condition, and specialised 3D printers to create personalised medicine.
The process enables the automated production of biologically, mechanically and anatomically customised solutions that are tailored for the patient's body and condition.
Applications of biofabrication research include:
- lifelike personalised implants, grafts, prosthetics, orthotics and radiation therapy aids
- robotic-assisted surgery
- improved surgical training, planning and consultation.
These advances will lead to:
- lower health costs
- improved access to the best treatments
- better health outcomes and quality of life for individuals and society.
The institute will offer opportunities for Australian scientists, engineers and clinicians to be employed in cutting-edge multidisciplinary research that will benefit people around the world, while attracting significant private sector and philanthropic investment.
Biofabrication researchers at the institute will be able to work closely with clinicians, industry partners and other research institutions located on the Herston Health Precinct, and engage with collaborators internationally through virtual networking technologies.
The institute's diverse spaces will be designed to promote collaboration around clinical issues and stimulate the generation of innovative research ideas and clinical applications.
- Patient interface zone
- Supporting patients coming to the institute for consultation, counselling, diagnostics, care planning and treatment evaluation.
- Discovery and innovation hub
- Promoting collaboration and innovation between clinical staff, broad multi-specialty teams, researchers and external partners.
- Biofabrication and advanced manufacturing laboratory
- Developing the latest 3D advanced manufacturing and bioprinting platforms, and 3D printing approaches for use by clinicians and health practitioners.
- Tissue engineering laboratory
- In-depth study of 3D tissue scaffold performance and tissue growth, development of new materials and techniques.
- Clinical scanning and visualisation laboratory
- Developing novel 3D image and motion capture technologies to rapidly and noninvasively acquire high fidelity 3D patient information.
- 3D modelling and computational medicine laboratory
- Analysing 3D patient data and producing dynamic 3D models for use in custom implants and tissue engineering fabrication, 3D printing and virtual and augmented reality environments for surgical planning and patient consultation.
- Health economics node
- Evaluating and measuring the economic impact of the institute's research, and its alignment with Australia's regulatory framework.
- Industry collaboration spaces
- Co-working spaces encouraging partnerships between the institute and industries that align with the institute's scope and vision.
Contact us to find out more
For more information about the Herston Biofabrication Institute, contact Professor Mia Woodruff.