Clarifying The Clinical Application And Mechanisms Of Pedunculopontine Nucleus Deep Brain Stimulation For Parkinson’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$202,320.00
Summary
Over 64,000 Australians have Parkinson’s disease. Most patients with Parkinson’s disease ultimately develop gait ‘freezing’ and poor balance, which impair quality of life and cause falls. Unfortunately, gait freezing and poor balance often don’t improve with conventional treatments. We are therefore helping to develop a new treatment for these symptoms, which involves implanting a pacemaker into a very deep region in the brain called the “Pedunculopontine Nucleus’.
Reconsideration Of The Mechanisms Underlying Movement Changes With Pain
Funder
National Health and Medical Research Council
Funding Amount
$401,361.00
Summary
Pain changes the way we move. Although undisputed, there is a surprising lack of agreement regarding the underlying mechanisms. This project involves an innovative mix of neurophysiological methods to investigate how the drive to muscle cells from the nervous system is altered during pain. We aim to resolve the perplexing problem of how pain changes our ability to activate muscle. Our findings are likely to provide a clear understanding of the underlying mechanisms and guide rehabilitation.
Using Modelling To Evaluate STI Epidemiology Control Strategies And Investigate Chlamydial Within-host Disease
Funder
National Health and Medical Research Council
Funding Amount
$94,250.00
Summary
This research will further our understanding of the mechanisms that give rise to the development of Chlamydia within a cell and how it causes disease, ultimately providing targets for drug-vaccine design. This project will also design and evaluate epidemic control strategies to inform policy makers for reducing the incidence and prevalence of sexually transmitted infections. These applications are addressed by developing mathematical models, biophysical theory, and statistical analyses.
Role Of Load Detection And Compensation In Pathogenesis Of Obstructive Sleep Apnea.
Funder
National Health and Medical Research Council
Funding Amount
$340,867.00
Summary
This proposal will use novel techniques to explore how defective responses to the threat posed by a collapsing upper airway contribute to the Obstructive Sleep Apnea syndrome, a disease involving repetitive collapse of the upper airway in sleep. Responses to small increases in the resistance to inspiratory airflow will be examined by measuring the small electrcal responses in the brain to these loads, and the response of the muscles responsible for maintaining airway patency to the collapsing fo ....This proposal will use novel techniques to explore how defective responses to the threat posed by a collapsing upper airway contribute to the Obstructive Sleep Apnea syndrome, a disease involving repetitive collapse of the upper airway in sleep. Responses to small increases in the resistance to inspiratory airflow will be examined by measuring the small electrcal responses in the brain to these loads, and the response of the muscles responsible for maintaining airway patency to the collapsing forces induced by these loads, in both wakefulness and sleep. The brain's response to resistive loads will also be evaluated using the techique of functional magnetic resonance imaging, which demonstrates areas of the brain activated by a stimulus.Read moreRead less
Our vestibular system provides us with the important sense of balance. When it fails we suffer debiltating bouts of vertigo and dizziness. A great deal is known about how balance signals are sent from the inner ear to our brains, but virtually nothing is known about the important signals the brain sends to the inner ear. In this study we will use a new perparation develped in our laboratory to examine how these essential brain signals control the function of our balance organs.
Regulation Of Growth Hormone Profile By Metabolic Balance: Neuronal, Neuroendocrinal And Molecular Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$413,257.00
Summary
Obesity is associated with a reduction in growth hormone secretion. As growth hormone maintains muscle mass at the expense of fat this may further promote the obese condition. This project will determine the physiological role of ghrelin, a hormone that signals hunger, in maintaining growth hormone secretion under normal, fasting and obese conditions. Clarification of the role of ghrelin in regulating growth hormone secretion may aid in the development of pharmacological agents to assist and mai ....Obesity is associated with a reduction in growth hormone secretion. As growth hormone maintains muscle mass at the expense of fat this may further promote the obese condition. This project will determine the physiological role of ghrelin, a hormone that signals hunger, in maintaining growth hormone secretion under normal, fasting and obese conditions. Clarification of the role of ghrelin in regulating growth hormone secretion may aid in the development of pharmacological agents to assist and maintain weight loss.Read moreRead less