SOLUTIONS For Present And Future Emerging Pollutants In Land And Water Resources Management
Funder
National Health and Medical Research Council
Funding Amount
$259,784.00
Summary
The European Union project SOLUTIONS will develop a novel conceptual framework to prioritise chemical contaminants for ecological and human health risk assessment of water resources and fish for human consumption. The Australian partner will implement health-relevant bioanalytical endpoints to inform cumulative risk assessment. The developed concepts and tools will be validated using European river case studies, with the knowledge generated to be transferred to the Australian context.
Multidimensional Assessment Of The Health Impacts Of Infrasound: Two Randomised Controlled Trials
Funder
National Health and Medical Research Council
Funding Amount
$1,943,934.00
Summary
The human health impact of infrasound that comes from wind turbines has not been well researched. We will assemble a team of researchers with a broad range of expertise to run a short term and longer term study to investigate whether exposure to infrasound causes health problems. The short term study will be lab based and run for three one week periods and the longer term study will be community based and run for six months. Sleep quality, balance, mood, cardiovascular health will be measured.
Do Urban Green Spaces Help To Reduce Incidence Of Alzheimer's And Associated Risk Factors? Multilevel Longitudinal Study Of 267,153 Adults With 15 Years Of Follow-up
Funder
National Health and Medical Research Council
Funding Amount
$719,841.00
Summary
Green spaces (e.g. parks and tree canopy) may help reduce – and narrow socioeconomic inequities - in the risk of Alzheimer’s by improving mental health and cognition, promoting physical activity and social support, reducing social isolation, reducing depression, obesity, cardiometabolic disease risk and buffering harms from traffic-related air pollution. I will conduct the first large-scale longitudinal studies to examine this hypothesis across a 15-year timespan.
We need to think laterally to find effective treatments for people with dementia. Using relevant animal models and cutting-edge technology, my research investigates gene-environment interactions. In particular, my group is studying the pathophysiology of Huntington’s disease, a devastating progressive disorder with no current cure. By integrating my unique wide-ranging expertise and my extensive network of collaborators, I aim to explore mechanisms and to discover novel therapeutic strategies.