Functional Genomics-new Technologies For Gene Discovery And Personalised Medicine
Funder
National Health and Medical Research Council
Funding Amount
$452,122.00
Summary
Disorders of the brain, which affect people of all ages, are one of the largest health, economic and social burdens in the developed world. These conditions are chronic, debilitating and have limited symptomatic treatments available. In general, very little is known about the causes of many brain disorders. This project aims to identify the genes and mechanisms that underlie these diseases to enable the development of diagnostic and treatment programs to help reduce the incidence and severity of ....Disorders of the brain, which affect people of all ages, are one of the largest health, economic and social burdens in the developed world. These conditions are chronic, debilitating and have limited symptomatic treatments available. In general, very little is known about the causes of many brain disorders. This project aims to identify the genes and mechanisms that underlie these diseases to enable the development of diagnostic and treatment programs to help reduce the incidence and severity of disease.Read moreRead less
Advanced Technologies For Improved Molecular Diagnostic And Prognostic Of Gastrointestinal Cancers
Funder
National Health and Medical Research Council
Funding Amount
$473,477.00
Summary
The aim of this interdisciplinary research is to develop innovative and clinically relevant technologies for improved molecular diagnostic of gastrointestinal cancers. It integrates technological advances in physics, bioengineering and nanoscience with state-of-the-art molecular technologies towards the delivery of both fundamental and translational outcomes. These technologies will be applied to address important fundamental questions such as the role of circulating tumour cells.
Vestibulo-ocular Reflex Physiology, Pathology And Diagnosis.
Funder
National Health and Medical Research Council
Funding Amount
$387,489.00
Summary
A sensation of movement from the inner ear is used to stabilise vision during head movements. Without it, every time you walk, run, or drive on a bumpy road, the world would appear to bounce. It can be debilitating when this sense doesn't work due to various diseases. This research examines what causes these disorders and how the brain responds to help recovery. A diagnostic technique, that we will develop for wide clinical use, will be used to assess and identify treatments.
Development Of Genomic Tools For Precision Medicine In Infectious Disease And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$470,144.00
Summary
I will develop tools for precision medicine in cancer and infectious disease. In infectious disease, these tools will provide rapid diagnosis of bacterial infection as well as the characterization of drug resistance, which will mean clinicians can give the correct antibiotic the first time. In cancer, it will provide tools for identifying the type of cancer present in a patient, and for identifying the likely response to different treatment options on the basis of which genes are switched-on
Vestibulo-ocular Reflex Physiology, Pathology And Rehabilitation
Funder
National Health and Medical Research Council
Summary
A sensation of movement from the inner ear is used to stabilise vision during head movements. Without it, every time you walk, run, or drive on a bumpy road, the world would appear to bounce. It can be debilitating when this sense doesn't work due to various diseases. This research examines how this sense works normally and the factors important for self-repair after injury. This work will also develop training exercises using a device for take-home balance rehabilitation.
My research team is focused on human parasites of major relevance to the Australian water industry and/or global public health. Our primary focus is the use of advanced technologies to improve understanding of these parasites and to utilize this information to underpin development of new drugs to treat them and novel diagnostic tests to improve their control.
The proposal builds on innovative technologies patented and published by my group. The project has two specific objectives: 1) to deliver the new generation of intelligent biomedical devices that have the capacity to control infections, inflammation and foreign body response; and 2) to develop a novel, non-invasive and affordable point of care diagnostic technology for early detection of chronic kidney diseases, and kidney and bladder cancers that is much needed in this space of healthcare.
My research objectives centre on new technology development for improving diagnostics and therapeutics applied to skin. I have developed and patented novel devices for minimally invasive topical drug delivery and skin sampling. My leadership and tangible research outcomes are now enabling previously impossible skin research to be done and now are also impacting the commercial sector in addition to creating new knowledge in the field.