Improving Therapeutic Delivery By Understanding Nanoparticle Interactions With Cells
Funder
National Health and Medical Research Council
Funding Amount
$553,152.00
Summary
Nanotechnology has the potential to transform the way we treat many diseases. This project will investigate how nanoengineered particles can be used to improve the effectiveness of vaccines. Nanoparticles can protect the delicate vaccine cargo from degradation, and will be targeted specifically to the cells in the body that most effectively induce the maximum theraputic response. This study will improve our understanding of how nanovaccines work and develop new ways of delivering vaccines.
Understanding The Cellular Processing Of Targeted Nanoparticles For Improved Therapeutic Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$625,477.00
Summary
Nanotechnology has the potential to transform the way we treat many diseases. This project will investigate how nanoengineered particles can be used to improve the effectiveness of vaccines. Nanoparticles can protect the delicate vaccine cargo from degradation, and will be targeted specifically to the cells in the body that most effectively induce the maximum theraputic response. This study will improve our understanding of how nanovaccines work and develop new ways of delivering vaccines.
Photonic Crystals For Probing Enzyme Activity: Single Cells Vs Bulk Measurements
Funder
National Health and Medical Research Council
Funding Amount
$320,891.00
Summary
We are all unique and we are unique down to a single cell. Can we understand the behaviour of a single cell? A novel biosensing platform will be developed to detect biological activity of single cells by simple measurement of a colour change. Successful fabrication of this biosensor will aid in the development of diagnostic devices for predictive and preventive medicine.
Platform Nanotechnologies For Oral Delivery Of Drugs, Therapeutic Protein And Peptide Delivery
Funder
National Health and Medical Research Council
Funding Amount
$437,034.00
Summary
The development of reliable oral delivery systems for problem drugs and biologics is one of the biggest challenges faced by the pharmaceutical industry in recent times. In order to tackle these challenges, I have developed programmable nanoparticles capable of efficiently deliver wide range of drugs including large peptides and proteins orally.
Broad spectrum nanomedicine for Meningitis treatment. Brain inflammatory diseases are among the top ten infectious causes of death. The project aims to provide Australian doctors with a superior alternative of treating infections that do not respond to conventional antibiotics. The nanomedicine developed will reduce the burden of hospital and boost Australia economy in the biomedical sector.
Discovery Early Career Researcher Award - Grant ID: DE140101553
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
A flexible virus-like particle delivery platform for next-generation vaccines. Murine polyomavirus (MPyV) capsid proteins self-assemble into spherical protein shells approximately 45 nm in diameter. Such virus-like particles (VLPs) are of considerable interest as bionanotechnological tools. The unique flexibility provided by MPyV VLPs will be exploited by exploring the ability of the interior cavity to retain bioactive cargos while engineering novel functionality on the exterior surface by 'mix- ....A flexible virus-like particle delivery platform for next-generation vaccines. Murine polyomavirus (MPyV) capsid proteins self-assemble into spherical protein shells approximately 45 nm in diameter. Such virus-like particles (VLPs) are of considerable interest as bionanotechnological tools. The unique flexibility provided by MPyV VLPs will be exploited by exploring the ability of the interior cavity to retain bioactive cargos while engineering novel functionality on the exterior surface by 'mix-and-match' assembly of VLPs from modified components. As a proof of concept for next-generation vaccines that stimulate much needed, broadly protective responses against infectious diseases, model antigens will be delivered to specific immune cells using this nano-container.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101518
Funder
Australian Research Council
Funding Amount
$345,000.00
Summary
Cellular responses to nanoparticles from cells on micropatterned surfaces. The mechanisms underlying cell-nanoparticle interactions remain largely unknown. It has hampered the design and development of innovative nano devices to be used for drug delivery, biomarkers and diagnostics. This project aims to explore the influences of cell size, density, geometry, intercellular communication and substrate properties on cell-nanoparticle interactions. A micropatterning technology is applied to precisel ....Cellular responses to nanoparticles from cells on micropatterned surfaces. The mechanisms underlying cell-nanoparticle interactions remain largely unknown. It has hampered the design and development of innovative nano devices to be used for drug delivery, biomarkers and diagnostics. This project aims to explore the influences of cell size, density, geometry, intercellular communication and substrate properties on cell-nanoparticle interactions. A micropatterning technology is applied to precisely control cell behaviour and provide a novel in vitro cellular model for nanoparticle studies. This project aims to significantly improve the understanding of cell-nanoparticle interactions to provide new insight into nanoparticle design and improve the efficacy of nano devices.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100131
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Biomaterials characterisation facility. The convergence of nanotechnology and biotechnology offers new opportunities to prepare nanoengineered materials for applications in biomedicine. The Biomaterials Characterisation Facility will provide equipment to characterise such nanoengineered materials to underpin advances in therapeutic drug delivery and tissue engineering.