Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100043
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
Development of an ultra-high speed spinning disk confocal micro-particle image velocimetry (PIV) platform for the investigation of cardiovascular disease . This facility will establish a microscope system specifically designed to investigate the function of blood cells in the context of cardiovascular diseases such as heart attack and stroke.
Discovery Early Career Researcher Award - Grant ID: DE160101308
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
An in vitro model of biomaterial-induced thrombosis. This project intends to use bioengineering strategies to develop new methods to understand material interactions with proteins and cells. The project plans to develop microfluidic channels to contain test materials and immobilise a key enzyme associated with thrombosis by plasma immersion ion implantation. This knowledge may increase our understanding of material-biomolecule interactions and have implications for manipulating biological foulin ....An in vitro model of biomaterial-induced thrombosis. This project intends to use bioengineering strategies to develop new methods to understand material interactions with proteins and cells. The project plans to develop microfluidic channels to contain test materials and immobilise a key enzyme associated with thrombosis by plasma immersion ion implantation. This knowledge may increase our understanding of material-biomolecule interactions and have implications for manipulating biological fouling across multiple fields.Read moreRead less
Synthetic leukocytes: bio-inspired DNA nanorobots powered by flow. Inspired by the way white blood cells roll along blood vessel walls, our goal is to build DNA nanorobots that roll along surfaces in flow. We take a synthetic biology approach to using biomolecules, such as DNA and proteins, to build functional particles and surfaces. To achieve this, we will combine our teams’ technological advances in DNA nanotechnology, plasma-activation for biomolecule immobilisation, and microfluidic devices ....Synthetic leukocytes: bio-inspired DNA nanorobots powered by flow. Inspired by the way white blood cells roll along blood vessel walls, our goal is to build DNA nanorobots that roll along surfaces in flow. We take a synthetic biology approach to using biomolecules, such as DNA and proteins, to build functional particles and surfaces. To achieve this, we will combine our teams’ technological advances in DNA nanotechnology, plasma-activation for biomolecule immobilisation, and microfluidic devices. This project will contribute new methods for synthetic particle motion in flow and provide new insights into biomolecule interactions and motion. Ultimately, this will allow us to harness rolling for the delivery of synthetic nanorobots for detection and remediation in flow systems, such as the body.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100220
Funder
Australian Research Council
Funding Amount
$180,000.00
Summary
Fluorescence and internal reflection system to develop lab-on-chip devices. Fluorescence and internal reflection system to develop lab-on-chip devices:
The aim of this project is to develop and establish a state-of-the-art fluorescence imaging facility. It aims to establish a total internal reflection fluorescence microscope combined with high speed epifluorescence imaging workstation that will be tailored to specifically investigate the fundamentals of blood cell, and vascular cell function. T ....Fluorescence and internal reflection system to develop lab-on-chip devices. Fluorescence and internal reflection system to develop lab-on-chip devices:
The aim of this project is to develop and establish a state-of-the-art fluorescence imaging facility. It aims to establish a total internal reflection fluorescence microscope combined with high speed epifluorescence imaging workstation that will be tailored to specifically investigate the fundamentals of blood cell, and vascular cell function. The project forms part of a broad bioengineering research program aimed at developing novel lab-on-chip technologies for basic cell biology and haematology. Outcomes from these projects may have significant impact in fundamental research in both bioengineering and biology disciplines.Read moreRead less