Cerebral Blood Flow During Psychogenic Non-epileptic Seizures.
Funder
National Health and Medical Research Council
Funding Amount
$397,322.00
Summary
We don't understand what happens during a non-epileptic seizure. Patients can't tell us and we can't use normal brain scanning during a seizure as the patient moves too much. Our idea is to take patients with non-epileptic seizures on the epilepsy wards who are being monitored and inject them with a radioactive tracer as soon as the seizure starts, then we can scan them afterwards to see what parts of their brain were active during the seizure, so we will understand what was happening.
Altered Sense Of Identity In Dementia: Cognitive And Neurobiological Underpinnings
Funder
National Health and Medical Research Council
Funding Amount
$108,902.00
Summary
People with dementia commonly experience changes in their sense of identity, causing significant distress for the individual and their families. This project will investigate these changes comprehensively, determining their contributing factors and how they relate to dementia’s effect on the brain. Outcomes from this project will improve understanding of the experience of the person with dementia, informing personalised care and enhancing the quality of patient-carer relationships.
Utilising Advanced Functional MRI Techniques To Explore Attentional Network Dysfunction In Visual Hallucinations Across Disorders Of Dementia
Funder
National Health and Medical Research Council
Funding Amount
$427,682.00
Summary
Parkinson’s disease is a devastating neurological disorder that places a massive burden on society, but we know frustratingly little about the brain mechanisms underlying the disorder. My fellowship will enable me to learn cutting-edge functional brain imaging analysis techniques, and upon return to Australia, to apply those tools to reveal the dysfunctional brain mechanisms underlying visual hallucinations in Parkinson’s disease, facilitating earlier diagnosis and targeted therapies.
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.
Neurocognitive Studies Of Brain Plasticity Associated With Surgical Treatment Of Arteriovenous Malformations
Funder
National Health and Medical Research Council
Funding Amount
$701,922.00
Summary
We will use state-of-the-art brain imaging methods to test whether specific brain areas which have been chronically starved of adequate blood supply can regenerate, informing debate about limits on brain plasticity. Arteriovenous malformations (AVMs) are longstanding defects which can cause thinking skills to 'migrate' to other brain regions in childhood without noticeable impact. Surgical correction allows a test of what happens to the previously inactive area: Does the area 'start to think'?
Brain surgery for the treatment of epilepsy is associated with a risk of cognitive impairment. Avoidance of disabling post-operative impairments depends in large measure on our ability to predict and measure individual patterns of language lateralization prior to neurosurgical intervention. Typical patterns of lateralisation cannot be assumed in patients with epileptogenic lesions. There appears to be a consensus that atypical representation is more frequent in patients with epilepsy than it is ....Brain surgery for the treatment of epilepsy is associated with a risk of cognitive impairment. Avoidance of disabling post-operative impairments depends in large measure on our ability to predict and measure individual patterns of language lateralization prior to neurosurgical intervention. Typical patterns of lateralisation cannot be assumed in patients with epileptogenic lesions. There appears to be a consensus that atypical representation is more frequent in patients with epilepsy than it is in the normal population, and values above 20% are not unrepresentative Partial epilepsy arises from a region in the brain and spreads to involve other areas. This is contrasted with generalised epilepsy, which appears to arise all over the brain simultaneously. Partial epilepsy is often associated with lesions such as tumors or hippocampal sclerosis, and often seizures are intractable. Patients with partial epilepsy have a number of sources of brain damage in the language areas. Primary brain changes may be pre-existing, which means they pre-date the onset of habitual seizures. They may consist of a focal developmental abnormality (a malformation of cortical development) or may represent a general genetic predisposition to seizures. Therefore, partial epilepsy is not only associated with severe abnormalities in epileptogenic region but also with additional widespread abnormalities in both hemispheres. There is also evidence for a correlation of abnormalities with seizure frequency with some suggestion that the duration of epilepsy may also increase the degree of abnormality in the hemisphere. The neuronal conditions in language cortex that give rise to altered lateralisation in function are currently not known. The primary aim of this study is to understand reorganisation of the language system in epilepsy by using the current most sensitive non-invasive methods of assessing brain damage and brain function, using magnetic resonance imaging.Read moreRead less
Neuroimaging Of Human Visual Cortex Using Functional Magnetic Resonance Imaging: Improving Multivariate Techniques For Decoding Brain Activity
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
This research will investigate how the brain processes visual information using non-invasive functional magnetic resonance imaging (fMRI). The aims of this project are to advance techniques for "decoding" human brain activity from fMRI and to increase our understanding of how the brain uses visual information. Improvements in fMRI analysis will allow this cutting-edge technique to be applied more readily in clinical settings for improved treatment and diagnosis of neurological disorders.
Improving Human FMRI Through Modeling And Imaging Microvascular Dynamics
Funder
National Health and Medical Research Council
Funding Amount
$486,144.00
Summary
In this project we aim to establish a reliable vascular baseline to improve mapping of both small-scale functional architecture and large-scale brain networks in functional human brain mapping using MRI. By mapping the grey matter vasculature with high detail in both humans and animals, and by computing and matching of these atlases across species we will be able to validate this approach in vivo to confirm the better spatial specificity of the newly developed approach.