Mapping And Restoring Brain Networks Underpinning Psychiatric Symptoms
Funder
National Health and Medical Research Council
Funding Amount
$645,205.00
Summary
My research investigates how networks of brain regions dynamically communicate to support human behavior. I am interested in how brain network activity deviates from the norm to give rise to psychiatric symptoms. Results from my work will facilitate targeted research and interventions aimed at treating symptoms of psychiatric disorders.
A Device For Simultaneous Continuous Acquisition Of EEG And MRI
Funder
National Health and Medical Research Council
Funding Amount
$179,401.00
Summary
We aim to further develop a world-leading method we invented that facilitates the simultaneous, continuous acquisition of the electroencephalogram (EEG - electrical brain waves measured at the scalp) and functional Magnetic Resonance Imaging (fMRI - images the location of brain activity throughout the brain). Combining the two permits non-invasive imaging of human brain function with the exquisite temporal resolution of EEG and the high spatial resolution and brain coverage afforded by fMRI.
Brainstem And Hypothalamic Function And Anatomy In Migraine
Funder
National Health and Medical Research Council
Funding Amount
$652,828.00
Summary
Migraine is a disabling condition characterized by mostly unilateral throbbing head pain and a range of associated neurological symptoms. The underlying mechanisms responsible for the initiation of migraine remains unknown. We aim to determine brain anatomy and activity patterns in migraineurs throughout the migraine cycle. An understanding of the mechanisms responsible for migraine will aid in better treatment development.
High-resolution Brain Imaging Of Basal Ganglia Function
Funder
National Health and Medical Research Council
Funding Amount
$589,083.00
Summary
This project will develop new methods for high resolution MRI imaging of the human brain. We will assess functions of deep brain areas known as the basal ganglia that play a critical role in movement planning and co-ordination. Dysfunction within the basal ganglia is responsible for the motor impairments seen in people with Parkinson’s disease. In this project, we will examine changes in basal ganglia function and structure that lead to individual differences in movement control and learning.
Brain Adaptation Associated With Spontaneous And Training-induced Recovery Of Touch Sensation Post-stroke.
Funder
National Health and Medical Research Council
Funding Amount
$339,950.00
Summary
Brain networks may reorganize to optimise stroke recovery. However, little is known about brain mechanisms underlying natural and training-induced recovery after stroke, particularly following loss of body sensations. Knowledge of the experiences that may facilitate brain reorganisation is a prerequisite for the development and evaluation of optimal stroke rehabilitation strategies. We aim to provide novel information on the potential benefits of specific training in facilitating reorganisation ....Brain networks may reorganize to optimise stroke recovery. However, little is known about brain mechanisms underlying natural and training-induced recovery after stroke, particularly following loss of body sensations. Knowledge of the experiences that may facilitate brain reorganisation is a prerequisite for the development and evaluation of optimal stroke rehabilitation strategies. We aim to provide novel information on the potential benefits of specific training in facilitating reorganisation of the brain after stroke. Specifically we will: (i) locate areas of brain activity associated with natural and training-induced recovery of touch sensation following stroke and (ii) investigate the relationship between brain activation, sensory recovery and intervening experience. Site and extent of brain activation associated with recovery of touch sensation will be investigated over time using serial functional magnetic resonance imaging (fMRI), a controlled sensory task and clinical measures of recovery. Thirty stroke patients with impaired touch sensation of the upper limb will be studied at 2-6 weeks and 6 months post-stroke to investigate changes in brain activation associated with natural recovery (Study 1). Ten healthy controls will also be studied over 6 months. Those patients who still have sensory loss at 6 months will then receive specific sensory training or placebo intervention to study the effect of training-induced recovery on brain activity (Study 2). The whole brain will be studied and activation sites will be interpreted relative to individual and standard brain maps. We expect that the findings will advance our knowledge of the relationship between clinical recovery, training and neural plastic changes in the brain. This information will provide direction for the development of scientifically based treatments designed to maximise recovery and help identify patients who are likely to show natural recovery and-or benefit from training.Read moreRead less
What Drives Abnormal Cerebral Activity In Secondary Generalised Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$565,809.00
Summary
Secondary Generalised epilepsy (2GE) is a severe, disabling epilepsy syndrome characterised by childhood onset frequent, treatment resistant seizures and developmental delay. Although one of the four major categories of epilepsy, it is poorly understood. This project uses combined EEG (brainwave testing) and MRI to reveal which brain areas are involved in the epileptic activity of 2GE. Advanced analysis techniques will explore which brain regions initiate 2GE epileptic activity.
Molecular Imaging Of Brain Tumour Therapeutic Efficacy
Funder
National Health and Medical Research Council
Funding Amount
$412,200.00
Summary
The prognosis for malignant brain tumour patients that do not respond to intial treatment strategies is very poor. The fact that many of these patients patients will not survive longer than 12 months post diagnosis underscores the need to make treatment management decisions in a timely manner. This project seeks to develop and validate non-invasive early molecular imaging biomarkers that can quantify treatment efficacy months before traditional measures of efficacy are valid.