What Central Mechanisms Increase Cardiac Sympathetic Nerve Activity In Heart Failure?
Funder
National Health and Medical Research Council
Funding Amount
$401,389.00
Summary
Heart failure is a disabling and deadly syndrome that has reached epidemic proportions in western populations. In heart failure, the activity of the sympathetic nerves to the heart is dramatically increased, leading to development of arrhythmias and sudden death. Using our unique model of heart failure, in which we directly record cardiac sympathetic nerve activity, we aim to determine the mechanisms in the brain that cause this large, detrimental increase in nerve activity.
Cardiac Sympathetic Nerve Activity: Understanding Normal Control And The Causes Of The Increase In Heart Failure
Funder
National Health and Medical Research Council
Funding Amount
$531,125.00
Summary
Heart failure is a condition in which the heart muscle becomes weak and is unable to pump sufficient blood around the body to provide adequate perfusion of the organs. This results in breathlessness, lethargy, fatigue, mental confusion and eventually death. At present the life expectancy of patients with heart failure is poor, with a 5 year survival of 25% in men and 38% in women. It is the only form of heart disease that is increasing, the reason being that thousands of patients who have surviv ....Heart failure is a condition in which the heart muscle becomes weak and is unable to pump sufficient blood around the body to provide adequate perfusion of the organs. This results in breathlessness, lethargy, fatigue, mental confusion and eventually death. At present the life expectancy of patients with heart failure is poor, with a 5 year survival of 25% in men and 38% in women. It is the only form of heart disease that is increasing, the reason being that thousands of patients who have survived heart attacks or had coronary bypass operations go on to develop heart failure. In heart failure there is a very large increase in the activity of the nerves that stimulate cardiac rate and contractility, the cardiac sympathetic nerves. This increase in activity is detrimental, higher levels of activity predict greater morbidity and a reduced life span. The mechanisms causing the increase in cardiac sympathetic nerve activity are unknown, but greater understanding is essential if new and improved treatments are to be developed for patients with heart failure. Only two groups in the world measure cardiac nerve activity in conscious animals, neither is studying heart failure. We therefore have a unique opportunity to investigate the factors that control the activity of the cardiac nerves in the healthy state and to establish the causes of the increase in activity in heart failure. In particular, we will investigate how reflex control mechanisms, circulating hormones that are increased in heart failure and specific mechanisms in the brain act to control cardiac nerve activity in the normal state and what changes in these mechanisms lead to the preferential increase in cardiac nerve activity in heart failure. These findings will provide a detailed understanding of the mechanisms controlling cardiac nerve activity in the normal healthy state and increased knowledge of the factors that lead to the preferential activation of the cardiac nerves in heart failure.Read moreRead less
Very little is known about mechanisms whereby depression harms the heart. This is especially disturbing as recent evidence indicates that while antidepressants alleviate a depressed persons negative mood, they do not eliminate danger to the heart. We will use an animal model to determine: How depression affects the electrical stability of the heart; The identity of the brain mechanisms that are involved; and which drugs can be used to protect the heart fro the harmful effects of depression.
Although the heart contracts spontaneously, the rate and force with which it beats may be modified by the autonomic nervous system. That is, the rate and force of heart muscle contraction may be increased or decreased by the activation of two different sets of nerves. This project will determine how the autonomic nervous system modifies the strength of heart muscle contraction. It will involve the measurement of changes in contractile force, electrical activity and calcium levels within cardiac ....Although the heart contracts spontaneously, the rate and force with which it beats may be modified by the autonomic nervous system. That is, the rate and force of heart muscle contraction may be increased or decreased by the activation of two different sets of nerves. This project will determine how the autonomic nervous system modifies the strength of heart muscle contraction. It will involve the measurement of changes in contractile force, electrical activity and calcium levels within cardiac cells during muscle contraction. The effects of excitatory and inhibitory nerve stimulation on these three parameters will be examined. Results of this study will improve our understanding of how the contraction of heart muscle is controlled and provide an insight into the treatment of heart disease.Read moreRead less
Gastrointestinal Sensory Function In Normal And Diseased States
Funder
National Health and Medical Research Council
Funding Amount
$691,026.00
Summary
Chronic pain and discomfort from the digestive system is a major health care issue world-wide. There is currently no effective treatment for these problems, which often have no apparent organic cause. Lack of treatment is due to a lack of understanding about how sensations are transmitted from the digestive system to the brain. Our research group has unique and powerful techniques that allow us to probe the basic mechanisms of sensory function, and make rapid progress towards finding drugs that ....Chronic pain and discomfort from the digestive system is a major health care issue world-wide. There is currently no effective treatment for these problems, which often have no apparent organic cause. Lack of treatment is due to a lack of understanding about how sensations are transmitted from the digestive system to the brain. Our research group has unique and powerful techniques that allow us to probe the basic mechanisms of sensory function, and make rapid progress towards finding drugs that reduce specific types of sensory signals from the gut. We shall investigate sensory mechanisms in the upper and lower regions of the gut, where symptoms are most prevalent in diseases such as non-cardiac chest pain, functional dyspepsia and irritable bowel syndrome. Six aspects of sensory nerve endings in the gut are to be investigated: 1. The grouping of endings into functional classes (similar to touch or pressure receptors in skin) 2. How endings respond to chemicals and hormones found in the gut 3. How currently available drugs may be useful in reducing sensitivity 4. The mechanisms by which inflammation affects sensitivity 5. How nerve growth factors may trigger changes in sensitivity 6. How pores or channels in nerve endings determine their functionRead moreRead less
Morphological Determinants Of Neurotransmission In Autonomic Ganglia.
Funder
National Health and Medical Research Council
Funding Amount
$450,111.00
Summary
The nervous system consists of billions of nerve cells that are connected together in special ways to process information about the outside world and our internal state and then generate the appropriate responses of our body to this information. To understand the complex working of the brain and its nerves, we have to understand how all these nerves are connected to each other. We are interested in the nerves that control the functions of the internal organs, such as arteries, glands and the gut ....The nervous system consists of billions of nerve cells that are connected together in special ways to process information about the outside world and our internal state and then generate the appropriate responses of our body to this information. To understand the complex working of the brain and its nerves, we have to understand how all these nerves are connected to each other. We are interested in the nerves that control the functions of the internal organs, such as arteries, glands and the gut. The brain controls these functions automatically, so we usually are not directly aware of their activity. The instructions to change the activity of the internal organs are sent from the brain down the spinal cord. The information is then sent from the spinal cord to the organs via a special set of nerves. However, instead of going directly to their targets, these nerves make connections with yet another set of nerves, which then go on to make the final connections with the appropriate target organs. We know a lot about these final nerve cells, including how big they are, how complicated they look, and what kinds of chemicals they use to send messages to the organs that they control. However, we still do not very much about how all these nerves are connected to each other. In this project we will use different types of modern microscopes that use either lasers or electron beams to look directly at the nerves and their connections. We then will use computerised models to construct a detailed map of the pathways taken by the nerves on their way to their target organs. By knowing how the nerves are connected to each other in these pathways, we will be able to understand how the instructions of the brain are modified depending on what other things are going on in the body at the same time. This information will be vital to help us appreciate how the nerves work when we get sick or injured.Read moreRead less