Vasomotor Ganglionic Transmission: The Preganglionic Peptide And The Second Gear
Funder
National Health and Medical Research Council
Funding Amount
$451,896.00
Summary
Blood pressure depends on nerve signals that travel from the central nervous system to blood vessels. In the middle of this pathway is a relay station - the sympathetic ganglion cell. Transmission through this relay station has recently been shown to have not only a fixed but also a variable component - the 'second gear'. The project tests if and how three likely candidate peptide molecules, one in the nerves, two in the bloodstream, control this 'second gear' and hence regulate blood pressure.
Role Of The Hypothalamus, Oxidative Stress And Angiotensin In Chronic Stress
Funder
National Health and Medical Research Council
Funding Amount
$535,333.00
Summary
Stress can trigger life threatening cardiovascular events and its impact is much greater when blood pressure is raised. We seek to determine which chemical type of brain neuron and which region is responsible for amplifying the responses to repeated stress in an animal model that closely resembles the human form of the disease. We will focus specifically on the hypothalamus which controls the sympathetic nervous system.
Roles Of The Peptide Hormone, Ghrelin, In The Spinal Cord
Funder
National Health and Medical Research Council
Funding Amount
$414,326.00
Summary
This study investigates the control of internal organs of the body, the heart, blood vessels, intestine and bladder. We have made the new and surprising discovery that ghrelin, previously known to be a hormone, is probably also a neurotransmitter in the spinal cord. This raises the possibility that drugs that act on ghrelin receptors in the spinal cord could be used to treat high blood pressure or other problems of internal organs.
Plasmapheresis As A Novel Treatment Of Postural Tachycardia Syndrome: A Randomised Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$97,081.00
Summary
We aim to conduct a randomized controlled trial to test our hypothesis that the removal of autoantibodies (through plasmapheresis) will reduce the severity of symptoms in patients with postural tachycardia syndrome. We will be measuring symptom scores, cardiovascular fitness on exercise testing, heart rate and blood pressure responses during valsalva and orthostatic stress as well as the metabolic profiles and presence of autoantibodies in the blood of patients participating in the trial.
As Director of Research in the Department of Cardiology, Prof Hare supervises a number of research groups, a major one being a “Psychosocial” research group, others including a “wet “ vascular laboratory, a clinical cardio-vascular laboratory, an exercise research group and a clinical trials group primarily working in heart failure.
A Brain-based Model Of Anxiety Sensitivity In Panic Disorder
Funder
National Health and Medical Research Council
Funding Amount
$402,214.00
Summary
This project will combine advanced brain imaging and brain network modelling to better understand the neurobiology of panic disorder with relevance to its treatment.
Does Renal Afferent Nerve Activation Contribute To Cardiac Sympathoexcitation And Decreased Renal Function In Heart Failure?
Funder
National Health and Medical Research Council
Funding Amount
$311,860.00
Summary
Removal of the nerves sending information between the kidneys and the brain reduces blood pressure in hypertensive patients. There is intense interest in the use of this procedure in heart failure patients, as it may reduce the harmful high level of nerve activity from the brain to the heart and kidneys. Using an experimental model of heart failure, I will determine whether this approach is beneficial in heart failure and its mechanisms of action.
What Triggers Complex Regional Pain Syndrome After Minor Injury?
Funder
National Health and Medical Research Council
Funding Amount
$958,898.00
Summary
Most people recover from minor trauma but some develop very disabling, difficult to treat, costly pain syndromes. We can identify those at high risk of developing such a syndrome after wrist fracture. By comparing inflammation, immune system function, stress, brain function and behaviour between high and low risk patients, we will take a major step towards understanding, preventing and treating these syndromes.
PREMOTOR SYMPATHETIC CONTROL OF BLOOD PRESSURE DURING PSYCHOLOGICAL STRESS: HYPOTHALAMUS VERSUS MEDULLA.
Funder
National Health and Medical Research Council
Funding Amount
$153,616.00
Summary
Health and well being depend in large part on a strong and efficient autonomic nervous system. The autonomic nervous system controls blood pressure, heart rate, gastrointestinal function, immune responses and certain forms of pain. Negative emotions can have a strong impact on autonomic function. We have all experienced the sweaty hands, pounding heart and intestinal discomfort when the mail arrives and bad news is expected or when we face a deadline for which we are not prepared. This is known ....Health and well being depend in large part on a strong and efficient autonomic nervous system. The autonomic nervous system controls blood pressure, heart rate, gastrointestinal function, immune responses and certain forms of pain. Negative emotions can have a strong impact on autonomic function. We have all experienced the sweaty hands, pounding heart and intestinal discomfort when the mail arrives and bad news is expected or when we face a deadline for which we are not prepared. This is known as psychological stress and it is usually associated with anxiety. Unfortunately, it is also the most common form of stress in modern urban life. There are clear indications that when these autonomic changes become chronic they can lead to hypertension, weak immune responses and gastric ulcers. In people already suffering from cardiovascular diseases they can also precipitate cardiac and cerebrovascular accidents. Clearly, the link between psychological stress and the autonomic nervous system needs to be explored in more detail. This project looks at the organization of the neural network in the brain and spinal cord that controls these responses. It uses a simple model of psychological stress in the conscious rat and recent non invasive techniques to record blood pressure and look at neuronal activity. We think that we have identified a group of neurons that may be controlling very specifically this response. It is located in the hypothalamus. The aim of this project is to further test the role of these neurons and find out what is controlling them. They will also be compared to another group of neurons that also controls blood pressure but apparently not in relation to psychological stress. The possibility that the cardiovascular response to psychological stress might be mediated by a specific group of neurons in the brain is a very exciting finding. It could lead to new therapeutic applications for acting against the short and long term effects of stress.Read moreRead less