Harnessing Neural Plasticity To Improve Functional Outcomes Following Burn Injury.
Funder
National Health and Medical Research Council
Funding Amount
$667,984.00
Summary
Burn is painful and leads to long-term functional impairment and increased chronic disease. Pain and peripheral injury induce changes in the brain that can be functionally beneficial or maladaptive, yet we know little about brain changes following burn injury. This project will identify the mechanisms and functional impact of neural plasticity after burn injury, and test the efficacy of a neural intervention to reduce pain and improve functional recovery following burn injury.
User-centred Design Of A Technology-mediated, Theory Driven, Intervention Package To Reduce Incorrect Use Of Child Car Restraints
Funder
National Health and Medical Research Council
Funding Amount
$691,342.00
Summary
This project aims to develop and optimise an efficient, cost-effective intervention that provides instruction on how to correctly use child car restraints, as well as promoting behaviours required to achieve correct restraint of children in cars. This work offers potential paradigm shifting solutions to a long-standing problem that is currently putting more than 50% of children travelling in cars at a three-fold increased risk of serious injury and death
Targeting Neurovascular Communication As A Novel Way Of Reducing Vision Loss In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$986,663.00
Summary
Diabetes is a leading cause of blindness. Here, we evaluate whether diabetes causes changes in the way neurons signal to blood vessels, and whether blocking some of the signals from neurons reduces blood vessel abormalities. Overall, this information is critical to our understanding of the early changes that occur during diabetes and whether novel treatments used early in diabetes can prevent long term changes and vision loss.
Dissecting Brain Network Ageing Using Whole Brain Imaging
Funder
National Health and Medical Research Council
Funding Amount
$692,964.00
Summary
In this proposal, we will make the first attempt to map the whole brain activity change during ageing using a series of state-of-the-art techniques. We will also identify genetic and pharmacological interventions that improve brain network function during ageing. Outcomes from this research will provide an unprecedented understanding of functional ageing within the brain and identify therapeutic interventions to prevent this process.
Organisation Of The Genome During The Development Of Antibody-secreting Cells
Funder
National Health and Medical Research Council
Funding Amount
$886,155.00
Summary
Each cell of our body contains over two metres of DNA that must be correctly packaged in order for our cells to function. We are using cutting-edge molecular biology techniques to study how this DNA circuitry is established in the white blood cells of our immune system that produce antibodies. Our novel approaches will reveal unique strategies to modulate immune responses to our benefit.
A Novel Interaction Between The Immune And Vascular Systems In Early-onset Preeclampsia; An Opportunity For New Treatments?
Funder
National Health and Medical Research Council
Funding Amount
$921,623.00
Summary
Preeclampsia is a pregnancy complication that leads to poor birth outcomes and elevated lifelong cardiovascular disease risk in 4 million women each year. It has no cure and treatments are limited because the causal mechanisms are not understood. We have identified a specialised immune cell in the mother's blood that assists blood vessels to function properly in pregnancy. We will assess whether interventions to enhance these cells can improve poor blood vessel function and pregnancy outcomes.
About one in eight known genetic disorders involve DNA alteration that activates a cellular quality control mechanism that disables the affected gene. This mechanism is more efficient in some individuals than others. It can influence disease outcomes and severity. We will engineer and apply tools and models to measure and manipulate this crucial cellular mechanism. This will allow us to predict disease severity as well as to intervene where a manipulation of this mechanism will be beneficial.