Transformed Drug Policies: Integrating Empirical Evidence With Participatory Democracy
Funder
National Health and Medical Research Council
Funding Amount
$782,370.00
Summary
In my 5 year research fellowship I will lead internationally relevant research on better policy options for illegal drugs, such as methamphetamine, heroin and cannabis. Drug policy can be driven by politics and the media, rather than research evidence. I will generate a cutting edge and fresh perspective with an agile approach to new research that takes into account the rapidly changing field of drug policy. This will provide policy makers with a new framework for evidence-based policy reforms.
I lead an internationally recognised research program that examines how governments can best respond to alcohol and illegal drugs – a significant health and social problem in Australia. My research generates new evidence to inform drug policy and I study how to translate research into meaningful information that governments can use. My aim is to improve how Australia responds; reducing the community harms and improving the health of those affected by alcohol and drugs.
Meta-research: Using Research To Increase The Value Of Health And Medical Research
Funder
National Health and Medical Research Council
Funding Amount
$631,370.00
Summary
Improving the return on investment in health and medical research will produce more and faster discoveries that enhance the lives of all Australians. Many problems in the research process are well known and have been pervasive for decades. I will use the research process to improve the research process. I will improve Australia's health and medical research workforce and the quality of the research they produce, creating benefits in multiple fields that last long into the future.
Understanding Cell Signalling As A Basis For New Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
This fellowship will capitalise on my extensive expertise in determining the three-dimensional atomic structures of proteins to uncover fundamental biological mechanisms in cancer and Alzheimer’s disease as a basis for discovering new drugs to combat these devastating diseases.
Life needs energy. We breathe and eat to make the universal biological fuel adenosine triphosphate (ATP). We turn over our own body weight in ATP every day and imbalances in this process lead to severe disorders such as obesity, diabetes and heart disease as well as to ageing. For any real breakthroughs we need to understand the machinery behind biological energy conversion in molecular detail and this is what my laboratory is aiming to achieve.
My research is aimed at understanding how the structure and dynamics of proteins dictates their function. I use X-ray crystallography to determine the shapes of proteins. Proteins are not static, however - they move in complicated ways, and often their motion is critical to their function (molecular motors, for example). It is very difficult to 'watch' this movement in the lab, so I use computer simulation to try to understand how proteins move.
Innovations In Cancer Imaging And Targeted Radiotherapy To Improve Human Health
Funder
National Health and Medical Research Council
Funding Amount
$926,980.00
Summary
Through a process of discovery, development and investigation we will create medical devices and methods to improve cancer imaging and targeted radiotherapy. Successful completion of this program will directly impact on the treatment and lives of Australian cancer patients in the foreseeable future.This program will substantially build research capacity and productivity within Australia, raise Australia’s profile in cancer research and foster international collaboration.
Sudden Cardiac Arrest: Improving Detection Of Patients At Risk
Funder
National Health and Medical Research Council
Funding Amount
$838,845.00
Summary
Sudden cardiac death accounts for ~10% of deaths in our community. Many of these deaths occur in people who could otherwise have had many more years of productive life ahead of them. The aim of our research is to determine the underlying mechanisms so that we can develop better tools for detecting underlying problems before they become life threatening and potentially develop new treatments to modify the underlying causes.
The blood system is made up of different types of blood cells (red cells, white cells, platelets etc). The correct number of each type of cell is controlled by chemical messengers called cytokines. Because overactive cytokine signalling can lead to inflammatory disease and leukemia it is tightly controlled by the other molecules in the body. This project aims to determine the exact mechanism whereby this is achieved with the aim of developing therapies to treat inflammatory disease and leukemia.
We recently established the Centre for Neurogenetics and Statistical Genomics, a research centre within the Queensland Brain Institute. It was established to bring together a team of researchers with expertise in neurogenetics, neuropsychiatric genetics, statistical genomics and computational biology. During my Fellowship I will conduct research at this Centre to elucidate the genetic basis of neurogenetic diseases and psychiatric disorders, using genomic tools and data analysis.