Biomimetic blood bag materials for prolonged platelet storage. Platelet storage is limited to five to seven days before there is a reduction in viable platelets. This results in a continual mismatch between supply and demand resulting in patients in remotes areas or those that have rare phenotypes missing out on platelets. It also results in the wastage of platelets because they expire before they can be used clinically. This project aims to extend the platelet shelf life beyond seven days by de ....Biomimetic blood bag materials for prolonged platelet storage. Platelet storage is limited to five to seven days before there is a reduction in viable platelets. This results in a continual mismatch between supply and demand resulting in patients in remotes areas or those that have rare phenotypes missing out on platelets. It also results in the wastage of platelets because they expire before they can be used clinically. This project aims to extend the platelet shelf life beyond seven days by developing biomimetic blood bag materials that reflect the natural molecular structures of blood vessels through the use of novel synthetic and biological materials. With the realisation of longer platelet storage times, this project aims to have significant impacts on the health and economic benefits of Australians.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