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A Wireless Electric Nerve-guide For Peripheral Nerve Repair
Funder
National Health and Medical Research Council
Funding Amount
$805,064.00
Summary
We aim to deliver a radical new precision intervention for peripheral nerve repair to improve the lives of people with peripheral nerve damage. Drawing from our recently awarded work on 'electric neural tissue engineering', we will pre-clinically test our invention of a unique clinically-amenable electric nerve-guide (e-nerve-guide), designed to act as a protective nerve conduit and wirelessly electrically-stimulate damaged nerves for their regeneration and restoration of function.
Facial paralysis results in loss of the ability to blink, which is the primary means of protecting and lubricating the eye. The eye becomes dry and ulcerated and eventually vision loss ensues. No therapy exists that can reliably restore blink and hence treatment is mostly palliative today. BLINC is an implantable device that artificially restores eye closure. It is wirelessly powered and readily implantable. BLINC has achieved eye closure similar to natural blinking in human cadaveric models.
Innate Threat Detection Circuits In The Superior Colliculus Co-ordinate Respiratory And Cardiovascular Responses To Visual Stimuli
Funder
National Health and Medical Research Council
Funding Amount
$517,958.00
Summary
Our surroundings affect our bodies: light pollution, traffic, and aircraft noise all significantly affect cardiovascular health. This project will investigate interactions between brain systems that subconsciously scan our surroundings for interesting or threatening features, and those that co-ordinate the cardiovascular and respiratory systems. We will generate new knowledge that describes how the brain detects danger and translates this into signals that contribute to cardiovascular risk.
Harnessing The Benefits Of Autonomous Vehicles For Health
Funder
National Health and Medical Research Council
Funding Amount
$738,596.00
Summary
The arrival of autonomous vehicles (AVs) will have huge implications for health behaviours, including physical activity and diet. It is critical that appropriate planning processes are undertaken as early as possible to prevent cities of the future being designed around AVs rather than people, thereby losing the potential for this new technology to be harnessed as a means of enhancing health. This project will facilitate the inclusion of health considerations in AV implementation processes.
Molecular Characterisation Of The DBHS Proteins In Telomerase Assembly
Funder
National Health and Medical Research Council
Funding Amount
$686,246.00
Summary
Telomerase is an enzyme that is active in over 90% of cancers. Telomerase activity allows cancer cells to divide an indefinite number of times. We have identified a novel role for the DBHS protein family in regulating telomerase activity. We aim to investigate the mechanisms by which these proteins function to assemble and transport telomerase to its site of action in the cell. We then aim to develop chemical inhibitors of these proteins, and test their utility in preventing cancer cell growth.
Identifying The Optimal Age To Apply Physical Activity Interventions To Improve Heart Health
Funder
National Health and Medical Research Council
Funding Amount
$852,804.00
Summary
By performing sophisticated, novel and sensitive measurements on the heart at age 30 and linking these to richly characterised historical data, we will determine whether there is an optimal age to apply physical activity interventions to improve adult heart health. This is possible using data collected from 18 weeks pregnancy through to adulthood in ~3,000 Australians. This study will inform policy and interventions to reduce heart disease; the single biggest cause of mortality in Australia.