A Micro-Physiological System to Mimic Human Microbiome-Organ Interactions. This project aims to mimic gut microbiome-organ interactions by developing a microbial-gut coculture chip, which can reversibly interface with other organs-on-chips. This is achieved through the systematic integration of highly customisable biofabrication and microfluidic technologies. This project fills a critical technological gap in the availability of an animal-alternative system to investigate microbiome-host interac ....A Micro-Physiological System to Mimic Human Microbiome-Organ Interactions. This project aims to mimic gut microbiome-organ interactions by developing a microbial-gut coculture chip, which can reversibly interface with other organs-on-chips. This is achieved through the systematic integration of highly customisable biofabrication and microfluidic technologies. This project fills a critical technological gap in the availability of an animal-alternative system to investigate microbiome-host interactions, which will greatly complement existing meta-omics approaches. The deliverables include a proof-of-concept system validated for gut-liver axis as well as the creation of new knowledge and framework to assimilate design thinking and advanced manufacturing to elevate tissue engineering into physiology engineering. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668532
Funder
Australian Research Council
Funding Amount
$680,000.00
Summary
A Focussed Ion Beam-Scanning Electron Microscope for Advanced Analytical and Nanotechnology Research in South East Queensland. The minerals industry underpins Australia's current economic prosperity. The aging of the population presents major economic challenges in the delivery of cost effective health services. New nanotechnology-enabled industries will contribute to future national economic and environmental well-being. The research enhanced by this facility impacts all these areas. It will i ....A Focussed Ion Beam-Scanning Electron Microscope for Advanced Analytical and Nanotechnology Research in South East Queensland. The minerals industry underpins Australia's current economic prosperity. The aging of the population presents major economic challenges in the delivery of cost effective health services. New nanotechnology-enabled industries will contribute to future national economic and environmental well-being. The research enhanced by this facility impacts all these areas. It will improve mineral extraction and processing, enhance fundamental understanding of cellular interactions with textured surfaces, and lead to improved implantable material designs and improved implantable device lifetimes (eg hip and knee replacements). Development of advanced nanotechnology applications in energy, optoelectronics and sensors will be also be extended.Read moreRead less