Obesity And Atrial Fibrillation: Arrhythmogenic Effects Of Generalised And Localised Adiposity
Funder
National Health and Medical Research Council
Funding Amount
$79,514.00
Summary
Obesity is a growing epidemic in Australia. Whilst it is well known that obesity has many detrimental cardiovascular effects, our understanding of how it affects the electrical conduction system of the heart remains incomplete. The present study will characterise both the relationship between generalised obesity and heart rhythm disorders, and also the relevance of differing fat deposits - such as the fat layer around the heart _ on the electrical conduction system of the heart.
Development Of A Non-invasive Magnetic Resonance Based Cartilage Damage Assessment Technique
Funder
National Health and Medical Research Council
Funding Amount
$556,131.00
Summary
This project will develop automated methods for the extraction of 3D maps of cartilage, bone and other anatomy from high field Magnetic Resonance Images of joints in the body.
MR Hip Intervention And Planning System To Enhance Clinical And Surgical Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$668,069.00
Summary
Degenerative hip disorders and osteoarthritis are a major cause of chronic pain and disability. This project will develop a software tool that allows clinicians to assess, monitor and plan patient treatment using magnetic resonance imaging. It will be the first tool that models joint motion using assessments of bone, cartilage and labral tissue. This will help guide treatment selection and improve outcomes from hip surgeries performed on over 20,000 Australians each year.
Validating And Optimising The Analysis Of Magnetic Resonance Physiology Data
Funder
National Health and Medical Research Council
Funding Amount
$91,725.00
Summary
Combined electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) is used to detect the anatomical areas in the brain that show electrical activity. Several centres worldwide use this technique to localise the seizure focus in patients with epilepsy. However, there is a lack of validation of the currently applied techniques. Current analysis methods have been developed and validated for other fMRI paradigms, such as motor tasks. It is not known whether the same principles ar ....Combined electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) is used to detect the anatomical areas in the brain that show electrical activity. Several centres worldwide use this technique to localise the seizure focus in patients with epilepsy. However, there is a lack of validation of the currently applied techniques. Current analysis methods have been developed and validated for other fMRI paradigms, such as motor tasks. It is not known whether the same principles are applicable and optimal for fMRI-EEG data. The proposed project aims at validating and optimising the analysis strategies for fMRI-EEG data.Read moreRead less
Understanding Neurodevelopment In Preterm Children Utilising MRI
Funder
National Health and Medical Research Council
Funding Amount
$302,123.00
Summary
Children born very preterm are more likely to have movement, learning and behavioural difficulties resulting from abnormal brain development or injury around the time of birth. This project will help identify common brain alterations in preterm children using MRI, as well as the causes and consequences of such abnormalities. Ideally, this research will help health professionals to prevent abnormalities and injury, or to intervene early to reduce the adverse effects of prematurity.
My aim is to use advanced Neuroimaging to further our understanding of the pathophysiology of brain disorders, in particular Epilepsy, but also Sleep disorders, Schizophrenia, the Dementias. In the case of my main research interest (Epilepsy) it is to red
Evaluation Of Renal Masses Using Magnetic Resonance
Funder
National Health and Medical Research Council
Funding Amount
$657,897.00
Summary
This project will investigate use of an imaging instrument to identify renal cancers that are potentially harmless from aggressive renal cancers. Currently, such differentiation requires biopsies, and the outcome is often unnecessary surgical removal of whole or part of the diseased kidney. Long term, this project will provide knowledge to determine aggressiveness of a renal cancer non-invasively, without having to perform an operation. The approach was previously successful for breast cancer.
Structural And Functional Networks In The Human Brain: Disturbance In Disease And Influence Of Genes.
Funder
National Health and Medical Research Council
Funding Amount
$568,892.00
Summary
Professor Graeme Jackson is a Neurologist at the Austin Hospital whose research is dedicated to the problem of understanding how epilepsy occurs and devising strategies for successful treatment. He is Deputy Director and head of the epilepsy division of the Florey Neuroscience Institutes which has research dedicated advanced MR imaging systems and physics support largely dedicated to solving these problems in epilepsy. He has 170 plus papers, 10 cited over 200 times. Career citations exceed 6000 ....Professor Graeme Jackson is a Neurologist at the Austin Hospital whose research is dedicated to the problem of understanding how epilepsy occurs and devising strategies for successful treatment. He is Deputy Director and head of the epilepsy division of the Florey Neuroscience Institutes which has research dedicated advanced MR imaging systems and physics support largely dedicated to solving these problems in epilepsy. He has 170 plus papers, 10 cited over 200 times. Career citations exceed 6000.Read moreRead less
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