The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Comorbid Affective Disturbance In A Model Of Absence Epilepsy - Shared Causation Linked To Morphological Abnormality?
Funder
National Health and Medical Research Council
Funding Amount
$502,650.00
Summary
People with epilepsy commonly suffer from severe mood disorders, such as depression and anxiety. These disturbances are underdiagnosed and undertreated, and are often more debilitating than the epilepsy. This project will investigate whether treatment of psychiatric disturbance with antidepressants also results in reduced seizure incidence in an animal model of epilepsy. Results generated from the study will provide clinicians strong rationale for aggressive treatment of such mood complaints.
New research with scanning techniques has confirmed older ideas about the complementary functions of the two hemispheres of the human brain. One major contrast between the two hemispheres concerns their cognitive and emotional styles. The left hemisphere plans and confidently smooths over discrepancies that do not fit the plan while the right hemisphere looks at all possibilities and cautiously highlights the discrepancies. This research project studies the switch between the two hemispheres tha ....New research with scanning techniques has confirmed older ideas about the complementary functions of the two hemispheres of the human brain. One major contrast between the two hemispheres concerns their cognitive and emotional styles. The left hemisphere plans and confidently smooths over discrepancies that do not fit the plan while the right hemisphere looks at all possibilities and cautiously highlights the discrepancies. This research project studies the switch between the two hemispheres that alternately activates these contrasting, but equally valid, viewpoints. The switch is studied directly by optical recording from animal brains. The switch can also be studied in humans using a recent discovery from our laboratory:- that the perceptual rivalries are mediated by a hemispheric switch mechanism. Perceptual rivalry is a phenomenon where continuous, but ambiguous, stimulation leads to a back-and-forth alternation of complementary percepts, a phenomenon that fascinated Salvador Dali and is featured in many of his paintings. The nature of the perceptual switch during rivalry has been debated for centuries. New experiments link perceptual rivalry to the switch of attention between the hemispheres. Using perceptual rivalry as an indirect way to monitor hemispheric switching in humans, we discovered a remarkable feature. The back-and-forth switching process of perceptual rivalry is significantly slower in subjects with bipolar disorder (manic depression), even when they are between episodes and their mood is normal. The timing of the switching process is very stable in an individual, and appears to be similar in identical twins. The speed of the switch mechanism may therefore be inherited. Altered neural rhythms may underly the predisposition, known to run in familes, from which bipolar disorder can be triggered. The aim of the project is to test these propositions about the basis of this common disorder, affecting 1-2% of the population..Read moreRead less
Development Of A Diagnostic Test For Bipolar Disorder (BD)
Funder
National Health and Medical Research Council
Funding Amount
$140,330.00
Summary
A unique test that monitors the rate of switching between the hemispheres of the brain in response to visual stimuli has been devised. A patent application covers an apparatus and test to measure the switching rate between the hemispheres and the way in which such measurements can be used as a means to diagnose bipolar disorder (BD). BD, also called manic depression, is a form of depression that currently affects over six million people worldwide with about three million in the USA alone. The co ....A unique test that monitors the rate of switching between the hemispheres of the brain in response to visual stimuli has been devised. A patent application covers an apparatus and test to measure the switching rate between the hemispheres and the way in which such measurements can be used as a means to diagnose bipolar disorder (BD). BD, also called manic depression, is a form of depression that currently affects over six million people worldwide with about three million in the USA alone. The condition has phases of mania and depression and periods of remittance. Full cycles of BD can occur as many as three times a year and for many patients, this is a lifelong condition. BD is effectively treated, once it is diagnosed. It is estimated that 20% of sufferers go undiagnosed and many more are misdiagnosed. The cost of mis- or non-diagnosis is measured by suicides, the financial burden on society with health care, loss of productivity etc, effects on family and associates, crime, etc. Diagnosis to date is achieved mainly by subjective means such as questionnaires. These instruments do not conclusively separate BD from other forms of depression and schizophrenia, for which treatment is quite different. Nor do they allow for factors such as substance abuse and other medical conditions that the patient may be suffering. BD is hereditary with the slow hemispheric switch rate being an indicator of the genetic trait. This phenomenon allows for an objective test for BD, even if an individual has not had an episode of BD. The slow switch allows relatively easy separation of a BD patient from those exhibiting symptoms that may have other causes.Read moreRead less
Cortical Spreading Depressions: Effects On Intracellular Ca2+ Concentration And Mechanisms Of Propagation
Funder
National Health and Medical Research Council
Funding Amount
$185,604.00
Summary
Human neuropathologies such as migraine, stroke, focal epilepsy and head injury all appear to involve an event called cortical spreading depression (CSD). This is characterised by a transient loss of excitability of cells that slowly spreads from a site of initiation out across the cortical surface. In normal brain tissue CSDs do not kill cells but in tissue with less than optimal energy supply CSDs do kill cells. This project is designed to understand the mechanisms contributing to CSD-induced ....Human neuropathologies such as migraine, stroke, focal epilepsy and head injury all appear to involve an event called cortical spreading depression (CSD). This is characterised by a transient loss of excitability of cells that slowly spreads from a site of initiation out across the cortical surface. In normal brain tissue CSDs do not kill cells but in tissue with less than optimal energy supply CSDs do kill cells. This project is designed to understand the mechanisms contributing to CSD-induced cell death. It is widely accepted that a high intracellular concentration of calcium ions is lethal to a cell. Thus, the proposed experiments are expected to show that a single episode of CSD in normal brain tissue induces only small changes in the intracellular calcium ion concentration but if repeated episodes of CSD occur, and if they take place in tissue with a compromised energy supply, then the calcium concentration rises to detrimental levels. Little is known about the mechanisms which underlie the propagation of CSD and therefore experiments will also be undertaken to investigate whether release of a messenger into the extracellular space is important or if there is a role for release of calcium from intracellular stores.Read moreRead less
Relaxin-3 Systems In Brain: Neurophysiology And Behaviour
Funder
National Health and Medical Research Council
Funding Amount
$287,321.00
Summary
The project aim is to better understand the function of a newly-discovered signalling molecule in the mammalian brain, know as relaxin-3. Recent research suggests that this chemical is vital for normal animal behaviour, such as arousal, stress, and learning and memory processes. This project will thoroughly characterise how this chemical modulates activity of brain regions that subserve behaviour in rats. This should reveal clinical implications of relaxin-3 in human behavioural disorders.
Neuroendocrine Responses To Psychological Stress: Unmasking The Protective Role Of The Prefrontal Cortex.
Funder
National Health and Medical Research Council
Funding Amount
$346,153.00
Summary
This project seeks to build up a picture of one of the mechanisms that the brain uses to protect our bodies from the potentially harmful effects of psychological stress. When we are subjected to psychological stress one of the consequences is the release of a hormone, corticosterone, into the blood-stream. This can be beneficial in the short-term as it helps our body redistribute its pattern of energy utilization in a way that helps in coping with an unexpected challenge. However, excessive secr ....This project seeks to build up a picture of one of the mechanisms that the brain uses to protect our bodies from the potentially harmful effects of psychological stress. When we are subjected to psychological stress one of the consequences is the release of a hormone, corticosterone, into the blood-stream. This can be beneficial in the short-term as it helps our body redistribute its pattern of energy utilization in a way that helps in coping with an unexpected challenge. However, excessive secretion of corticosterone due to excessive exposure to psychological stress can damage your health. For example, it can make you more susceptible to infection and also accelerate the rate at which your brain ages. The brain possesses certain mechanisms which try to limit the release of corticosterone when you are subjected to psychological stress. Unfortunately these mechanisms are not quite up to doing the necessary job under the conditions in which we live today, i.e. a very high level of psychological stress is a common feature of modern life. Nevertheless we believe that if we can properly understand these protective mechanisms in the brain, it may be possible to develop drugs which can boost their efficiency. In the long term this could greatly reduce ill-health in our society.Read moreRead less