Discovery Early Career Researcher Award - Grant ID: DE130101191
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Formation of the osteocyte network in bone matrix. The formation of new bone, which occurs throughout life for bone renewal and acutely after fractures, entraps a network of cells that can detect micro-damage and direct repair mechanisms. Mathematical and computational methods will be used to understand how this network can lead to a self-detecting and self-repairing biomaterial.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100163
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Live Cell Super Resolution Imaging Facility. The recent convergence of nanoscience and biology heralds a new era for the development of new biotechnologies. Advances in this field are critically dependent on being able to explore and understand the interactions of nanomaterials with cells in their live, dynamic state. This proposal aims to establish a Live Cell Super Resolution Imaging Facility, which will enable dynamic nanomaterial–cell interactions to be interrogated. This facility will under ....Live Cell Super Resolution Imaging Facility. The recent convergence of nanoscience and biology heralds a new era for the development of new biotechnologies. Advances in this field are critically dependent on being able to explore and understand the interactions of nanomaterials with cells in their live, dynamic state. This proposal aims to establish a Live Cell Super Resolution Imaging Facility, which will enable dynamic nanomaterial–cell interactions to be interrogated. This facility will underpin leading research programs at The University of Melbourne, Monash University, RMIT, the Peter MacCallum Cancer Centre and the Bionics Institute, promoting synergies across the physical and biological sciences for generating new knowledge and advancing bio-nanoscience and technology.Read moreRead less
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
Bioprogramming the behaviour of nanoparticles in live cells by nanoscopy . The project aims to develop safer materials that are sustainably sourced from sweet corn, and investigate using advanced imaging technologies, how these materials are processed in biological systems, including human and plant cells. This project expects to generate new knowledge in the optimal design of materials that can be used safely and effectively in biological applications in medicine and in agriculture. Expected ou ....Bioprogramming the behaviour of nanoparticles in live cells by nanoscopy . The project aims to develop safer materials that are sustainably sourced from sweet corn, and investigate using advanced imaging technologies, how these materials are processed in biological systems, including human and plant cells. This project expects to generate new knowledge in the optimal design of materials that can be used safely and effectively in biological applications in medicine and in agriculture. Expected outcomes of this multidisciplinary project include a library of highly biocompatible nanomaterials and expanded knowledge on imaging technologies and structure-function relationship of nanomaterials in biological cells. This should provide significant benefits, such as improved crop yields and safer transfection agents.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130101458
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Investigation and development of biological anti-adhesive coatings. Lubricin is a biological anti-adhesive protein that is found in mammalian joints. This project will investigate the properties and action of Lubricin and develop novel anti-adhesive coating technologies to eliminate problems associated with non-specific binding of biomolecules in microfluidic and biosensor applications.
Controlling the adhesome to regulate cell fate on biomaterials. Mesenchymal stem cell-based tissue engineering practices are hampered worldwide by the lack of appreciation and understanding of the matrix-mediated cues that must be provided during adhesion and spreading to drive cells to definitive tissue end points. This project will address these knowledge deficiencies by combining high throughput array technologies, a set of tailorable self-assembling biomaterials and real-time biosensors to r ....Controlling the adhesome to regulate cell fate on biomaterials. Mesenchymal stem cell-based tissue engineering practices are hampered worldwide by the lack of appreciation and understanding of the matrix-mediated cues that must be provided during adhesion and spreading to drive cells to definitive tissue end points. This project will address these knowledge deficiencies by combining high throughput array technologies, a set of tailorable self-assembling biomaterials and real-time biosensors to rapidly, at high resolution, elucidate how mechanotransductive cues determine the fate choice of mesenchymal stem cells, and furthermore, how to manipulate them with smart biomaterial design to achieve desired outcomes for tissue engineering. Read moreRead less
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: DE120101302
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Lab-on-a-chip platforms for hemodynamics research: new approaches for the study of blood diseases. This project will use advanced microfluidic technologies to study how and why blood clotting occurs. New devices will be created that can precisely analyse the ability of blood to form clots and these will become powerful tools for the diagnosis of blood disorders and the research and validation of drugs for the treatment of these disorders.
Understanding platinum dissolution in biomedical stimulating electrodes. Platinum is the main material used in electrodes for neurostimulators like the cochlear implant. Platinum electrodes can experience dissolution during implantation, which can impact on their function. The mechanisms governing this dissolution process are complex and still not fully understood. This research aims to understand the chemical, electrical and biological factors that impact on platinum dissolution in electrodes. ....Understanding platinum dissolution in biomedical stimulating electrodes. Platinum is the main material used in electrodes for neurostimulators like the cochlear implant. Platinum electrodes can experience dissolution during implantation, which can impact on their function. The mechanisms governing this dissolution process are complex and still not fully understood. This research aims to understand the chemical, electrical and biological factors that impact on platinum dissolution in electrodes. It will also develop new 3D models to simulate conditions in the human body for more rapid testing of electrodes. The new knowledge generated will improve the accuracy of predictions of platinum dissolution, develop new approaches for minimising dissolution, and contribute to reducing need for animal experimentation.Read moreRead less