Functional Brain Age Measurement In Children And Adolescents
Funder
National Health and Medical Research Council
Funding Amount
$700,433.00
Summary
An important aspect of medicine is measuring the function of the human body. It is often advantageous to convert complex functional measures into simpler, intuitive measures such as 'age'. We can compare functional age to chronological age to diagnose disease. In this project, we will build an estimate of 'brain age' in children and adolescents using recordings of the electrical activity of the brain. We will test this 'brain age' as a diagnostic tool in several neurological disorders.
Deep Brain Stimulation For Severe Generalised Epilepsy Of Lennox-Gastaut Phenotype
Funder
National Health and Medical Research Council
Funding Amount
$897,972.00
Summary
Deep Brain stimulation (DBS) is an emerging treatment for epilepsy, recently approved for use in Australia on the basis of trials in focal epilepsy showing benefit. The role of DBS in generalised epilepsy is currently unclear. This study tests the effectiveness of DBS in Lennox-Gastaut Syndrome, a severe, medication-resistant generalised epilepsy syndrome.
Neural Connectivity In Young People At High Risk Of Developing Psychosis
Funder
National Health and Medical Research Council
Funding Amount
$331,972.00
Summary
This project will investigate whether or not young people at high risk of developing psychosis show irregularities in the connections between different parts of their brain. It will also investigate whether information about a high-risk individual’s brain connectivity can be used to predict a) whether that person will make the transition to psychosis, and b) their clinical prognosis if they do become psychotic.
Understanding And Predicting Freezing Of Gait In Parkinson's Disease.
Funder
National Health and Medical Research Council
Funding Amount
$380,580.00
Summary
Freezing of Gait (FOG) affects half of all patients with Parkinson’s Disease (PD) with episodes causing the feet to feel glued to the ground leading to a significant falls risk. The mechanisms underlying FOG are not well understood and current treatments are usually ineffective. Combining brain wave recording, eye-tracking and functional brain scanning we will identify the changes that precipitate an episode of FOG allowing the development of a non-invasive device to prevent falls.
Localising Epileptic Discharges In The Brain Using Non-invasive Electro-magnetic Signal Analysis In Patients With Difficult-to-control Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$179,782.00
Summary
Epilepsy is a leading cause of chronic morbidity in Australia. A fundamental problem in clinical practice is the accurate identification of the 'hotspot' zone in the brain that is generating epileptic discharges. These discharges can be detected non-invasively (over the scalp) and analysed with electro-encephalographic and magneto-encephalographic source localisation (EMSL) techniques. EMSL is not used in routine clinical practice because we await a large scale prospective study (the aim of this ....Epilepsy is a leading cause of chronic morbidity in Australia. A fundamental problem in clinical practice is the accurate identification of the 'hotspot' zone in the brain that is generating epileptic discharges. These discharges can be detected non-invasively (over the scalp) and analysed with electro-encephalographic and magneto-encephalographic source localisation (EMSL) techniques. EMSL is not used in routine clinical practice because we await a large scale prospective study (the aim of this proposal).Read moreRead less
Seizures appear unpredictable and greatly affect the quality of all aspects of life for patients with epilepsy and their carers. New advances in complex systems theory suggest that transitions from normal brain activity to seizures are preceded by measurable changes in the brain’s responses to stimuli, known as critical slowing. Measurement of critical slowing will enable prediction of seizures, providing a warning system, and possibly an opportunity to deliver preventative therapies.
Local Sleep In The Awake Brain: An Underlying Cause Of Neurobehavioural Deficits In Sleep Apnea?
Funder
National Health and Medical Research Council
Funding Amount
$582,330.00
Summary
Obstructive sleep apnea (OSA) is a common sleep disorder which significantly impacts daytime functioning leading to excessive sleepiness, and problems with attention and thinking. Currently, the causes for cognitive impairment in OSA (including attentional lapses and performance deficits) are poorly understood. In the awake state, groups of neurons can briefly go “offline” as they do in sleep. These periods of “local sleep” may explain impaired task performance in OSA.