Electrical Stimulation With A “Random Noise” Pattern: A New Approach For The Treatment Of Depression
Funder
National Health and Medical Research Council
Funding Amount
$523,160.00
Summary
This study is a world first, examining the use of a novel technology to treat depression by stimulating the brain mildly and non invasively. The study will examine the effectiveness of a 4-week course of Transcranial “Random Noise” Stimulation to treat depression, and will also measure whether improvement in mood is accompanied by a restoration of brain plasticity or adaptability.
Associate Professor Bourne’s research will involve learning how the infant brain has an enhanced capacity to repair its own neocortex following an injury and to translate these findings into the development of brain regenerative therapies.
Epilepsy: Is It An Inherent State Of Cortical Hyper-excitability?
Funder
National Health and Medical Research Council
Funding Amount
$370,640.00
Summary
Transcranial magnetic stimulation (TMS) is a safe way to study the human brain and changes associated with epilepsy. I will use TMS to examine the effect of refractory epilepsy and recurrent seizures on the brain over time and how this differs to well controlled epilepsy and provoked isolated seizures. I will also explore the potential of using TMS to predict responsiveness to medication soon after starting treatment.
Harnessing Neuroplasticity To Improve Motor Performance In Infants With Cerebral Palsy: A Pragmatic Randomized Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$2,736,349.00
Summary
Every 15 hours an Australian baby is born with cerebral palsy. Despite confidence in early intervention, 50% don't receive intervention before their first birthday while awaiting diagnosis, and 8 of 10 previous trials have not produced any physical gains over and above natural development. We have promising data about a new brain training intervention that harnesses neuroplasticity and improves movement. Our trial will treat 300 infants with early training comparing results to Standard Care.
Characterising Post Stroke Neuroplasticity In Humans – Identifying A Critical Window For Rehabilitation
Funder
National Health and Medical Research Council
Funding Amount
$764,419.00
Summary
Despite major investment in care for stroke patients, almost all have persisting disability. Stroke causes loss of brain cells that cannot be replaced. Some recovery is possible through compensatory mechanisms. In addition, intact cells around the stroke undergo growth that is critical for recovery. Animal studies suggest these changes take place in a “critical window” after stroke. Applying therapies in this window should improve outcomes. We will use novel approaches to define the “critical wi ....Despite major investment in care for stroke patients, almost all have persisting disability. Stroke causes loss of brain cells that cannot be replaced. Some recovery is possible through compensatory mechanisms. In addition, intact cells around the stroke undergo growth that is critical for recovery. Animal studies suggest these changes take place in a “critical window” after stroke. Applying therapies in this window should improve outcomes. We will use novel approaches to define the “critical window” in patients after strokeRead moreRead less
Cerebral Palsy is most common childhood physical disability. While the brain injury is static, disability can be progressive and lifelong. This fellowship aims to develop and test novel interventions to optimise neuroplasticity by improving early detection and physical, cognitive, psychological and health outcomes in children with CP. Earlier accurate detection of CP will ensure effective treatments utilise critical periods of brain development and are translated into evidence based guidelines.
Do Ongoing Cognitive Demands Affect The Efficacy Of Transcranial Electrical Brain Stimulation In Young And Older Healthy Adults?
Funder
National Health and Medical Research Council
Funding Amount
$627,857.00
Summary
Transcranial direct current stimulation (tDCS) of the brain is widely used to enhance cognitive and motor function in healthy individuals and people with neurological disorders. Unfortunately, the efficacy of tDCS is highly variable between individuals. This project tests the hypothesis that ongoing cognitive processes – particularly attention – play an important role in regulating the effect of tDCS on brain function. The knowledge gained will help refine tDCS as a clinical and research tool.
Stroke affects 1 in 6 Australians and often leads to lifelong disability. This Fellowship will support A/Prof Bernhardt to: 1) complete the world first, international clinical trial of very early rehabilitation for people with stroke (AVERT), which has the potential to reduce the global disability burden of this disease; 2) in a new acute exercise laboratory, complete studies that help refine existing early exercise interventions and 3) test new models of rehabilitation care that take advantage ....Stroke affects 1 in 6 Australians and often leads to lifelong disability. This Fellowship will support A/Prof Bernhardt to: 1) complete the world first, international clinical trial of very early rehabilitation for people with stroke (AVERT), which has the potential to reduce the global disability burden of this disease; 2) in a new acute exercise laboratory, complete studies that help refine existing early exercise interventions and 3) test new models of rehabilitation care that take advantage of advanced e-health capability.Read moreRead less
The Mechanisms Of Repetitive Transcranial Magnetic Stimulation: A Translational Approach
Funder
National Health and Medical Research Council
Funding Amount
$624,263.00
Summary
Non-invasive brain stimulation is increasingly being used as a possible therapeutic intervention. The physiological mechanisms underlying the behavioural change are largely unknown. The project will use both human and rodent models to determine the structural brain changes that occur in response to non-invasive stimulation.