The brain exerts a restraining influence over the heartbeat via the vagus nerves. This is known as cardiac vagal ‘tone’. It is strong when we are healthy but weak when we are sick. It has a positive influence on the health of the heart and perhaps the body generally. Vagal tone comes from the brain but, despite over 150 years’ research, nobody knows exactly where. Using a novel technique, we can track down its origins. This important basic knowledge may lead to ways to improve health.
PACAP: The Mechanism Underlying Sleep Apnoea-induced Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$505,117.00
Summary
10% of Australians suffer from sleep apnoea; a cause of high blood pressure. Untreated, high blood pressure causes heart failure, kidney failure and stroke. A major cause of high blood pressure is an increased amount of nerve activity that controls the heart and blood vessels. In this proposal we will investigate how a brain chemical, called PACAP, affects nerve activity and blood pressure in a model of sleep apnoea. This information may lead to new and better treatments for high blood pressure.
Reduction Of The Cardiovascular Response Of Psychological Stress Through Blockade Of Orexin’s Action On One Of Its Receptors.
Funder
National Health and Medical Research Council
Funding Amount
$394,925.00
Summary
Anxiety, fear of challenges, frustration are part of modern life stressors. Our body reacts to these stressors by increasing blood pressure and heart rate, which in turn can harm our cardiovascular system and precipitate cardiovascular accidents. In this project we test a new class of drugs that act on a neurochemical system implicated in these particular responses. If our hypothesis is correct, one of these drugs could be used to relax the cardiovascular system and protect it in times of stress ....Anxiety, fear of challenges, frustration are part of modern life stressors. Our body reacts to these stressors by increasing blood pressure and heart rate, which in turn can harm our cardiovascular system and precipitate cardiovascular accidents. In this project we test a new class of drugs that act on a neurochemical system implicated in these particular responses. If our hypothesis is correct, one of these drugs could be used to relax the cardiovascular system and protect it in times of stress.Read moreRead less