Investigation Of A Novel Sympathetic Vasomotor Pathway
Funder
National Health and Medical Research Council
Funding Amount
$354,586.00
Summary
Blood pressure is regulated by sympathetic nerves to the heart and blood vessels, and it is believed that overactive sympathetic nerves contribute to many cases of hypertension. Overactive sympathetic nerves also contribute to, and worsen the disease process, in heart failure as well as other cardiovascular diseases. The regulation of sympathetic nerves is thus central to the understanding and treatment of cardiovascular disorders. The present proposal is specifically relevant to the hypertensio ....Blood pressure is regulated by sympathetic nerves to the heart and blood vessels, and it is believed that overactive sympathetic nerves contribute to many cases of hypertension. Overactive sympathetic nerves also contribute to, and worsen the disease process, in heart failure as well as other cardiovascular diseases. The regulation of sympathetic nerves is thus central to the understanding and treatment of cardiovascular disorders. The present proposal is specifically relevant to the hypertension which accompanies airway obstruction during sleep (obstructive sleep apnoea - OSA). We plan to study a novel class of sympathetic nerves ('accessory' sympathetic nerves), which are likely to be centrally involved in the hypertension of OSA, and probably also other conditions where sympathetic nerve activity is pathologically raised. 'Accessory' sympathetic nerves can cause a long-lasting amplification of the activity in the 'regular' sympathetic nerve pathway, enhancing its actions on the heart and blood vessels. The brain pathways that drive 'accessory' sympathetic nerves are essentially unknown. We seek to find out those pathways, study how they amplify the activity in the 'regular' pathway and explore their significance in an animal model of OSA. The outcomes of this study will be first, essential basic knowledge of a novel, but probably important, mechanism whereby the brain controls the cardiovascular system in health and disease. Second, the relevance of that mechanism to a specific type of neurogenic hypertension will have been defined.Read moreRead less
How Does The Central Respiratory Generator Amplify Sympathetic Activity In Hypertension?
Funder
National Health and Medical Research Council
Funding Amount
$290,113.00
Summary
High blood pressure causes many life-threatening cardiovascular diseases, including heart failure and stroke. The cause of most high blood pressure is not known. Using an animal model of high blood pressure we have shown that an interaction, in the brain, between the nerve pathways that generate respiratory activity and regulate blood pressure is altered. This occurs early in life and our evidence strongly suggests this may be a cause of high blood pressure.
Respiratory Modulation Of RVLM Premotor Neurons: Role In The Sympathetic Over-activity Of Hypertension.
Funder
National Health and Medical Research Council
Funding Amount
$338,605.00
Summary
Hypertension is a common health disorder in all societies and is a major risk factor for the development of life threatening cardiovascular diseases, including heart failure and stroke. Whilst some effective therapies are available, many patients are not adequately treated or have reduced quality of life due to serious side effects. There is a great need for alternative therapies. The central nervous system is clearly involved in hypertension although the level of that involvement is not well un ....Hypertension is a common health disorder in all societies and is a major risk factor for the development of life threatening cardiovascular diseases, including heart failure and stroke. Whilst some effective therapies are available, many patients are not adequately treated or have reduced quality of life due to serious side effects. There is a great need for alternative therapies. The central nervous system is clearly involved in hypertension although the level of that involvement is not well understood- i.e. is it a causal factor or just a contributor to the maintenance of established hypertension? The experiments outlined in this application are based on the observation that modulation of nervous activity to blood vessels is more influenced by the respiratory system in people with high blood pressure, than in normotensive people. We aim to test whether this increased respiratory modulation might be involved in the generation of the high blood pressure.Read moreRead less
Understanding Factors Involved In The Development Of Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$757,492.00
Summary
High blood pressure is a major cause of cardiovascular diseases. Currently intervention occurs after the cardiovascular system is damaged. Our interest is in the development of high blood pressure, to determine whether early intervention could stop its progression. We identified that excitation of the sympathetic nervous system by the circuits that control breathing is important. We seek to further understand this interaction to identify novel approaches to treat high blood pressure.
I am a medically trained physiologist studying how the brain controls the delivery of oxygen to the body, the removal of carbon dioxide and the maintenance of normal acid level in the blood. This branch of physiology is well known to anyone who has studied 'ABC' in a first aid programme. My work concerns the coordination of the breathing and blood pressure centres in the brain. It is crucial in the understanding of diseases such as obstructive sleep apnoea and hypertension.
ORIGIN AND REGULATION OF VAGAL PREGANGLIONIC NEURON SUBTYPES CONTROLLING AIRWAY SMOOTH MUSCLE TONE
Funder
National Health and Medical Research Council
Funding Amount
$438,700.00
Summary
The primary role of the airways is to allow the exchange of oxygen and carbon dioxide between the environment and the lungs. However, the airways are not merely a series of static tubes, but rather their size (or caliber) is subject to breath-by-breath alterations, thereby regulating gas exchange to match the body's demands. Regulation of airway caliber is achieved largely by subconscious changes in the tone of the muscle lining the airway wall. Airway muscle tone is primarily under the control ....The primary role of the airways is to allow the exchange of oxygen and carbon dioxide between the environment and the lungs. However, the airways are not merely a series of static tubes, but rather their size (or caliber) is subject to breath-by-breath alterations, thereby regulating gas exchange to match the body's demands. Regulation of airway caliber is achieved largely by subconscious changes in the tone of the muscle lining the airway wall. Airway muscle tone is primarily under the control of the parasympathetic division of the autonomic nervous system. Two distinct types of parasympathetic nerves innervate the airways: One type employs the neurotransmitter acetylcholine which causes airway muscle to contract and the airways to constrict, while the other type employs nitric oxide which evokes airway dilatation. The normal regulation of airway caliber is altered in a variety of inflammatory airways diseases. In asthma and chronic obstructive pulmonary disease (COPD) there is an increase in airway muscle tone (airway constriction) which compromises the normal movement of gasses and contributes to the morbidity and mortality of the diseases. There is a growing body of evidence to suggest that exaggerated airway muscle tone may in part result from dysfunction of either the contractile or relaxant parasympathetic nerves innervating the airways. However, at present very little is known about the parasympathetic pathways regulating airway caliber. A complete understanding of the mechanisms controlling airway smooth muscle tone is therefore essential to fully understanding possible role of autonomic dysfunction in the pathogenesis of obstructive airways diseases. The aim of this grant is to better define the physiological and anatomical properties of airway parasympathetic nerves in the brain stem.Read moreRead less
Gastrointestinal Signals And Cardiovascular Regulation- Implications For Obesity-related Hypertension.
Funder
National Health and Medical Research Council
Funding Amount
$486,886.00
Summary
Obesity is reaching epidemic proportions, and obesity-related hypertension is the leading cause of serious cardiovascular complications. Hormones released from the gut have been implicated in obesity, but their contribution to hypertension has not been studied. Preliminary studies in our laboratory have shown that these hormones participate in signals related to cardiovascular control by acting locally to relay signals to the brain, and may be more important in obesity than previously thought.
Neural migration: Which cells advance and which stay behind? This project aims to examine the neural crest cells that colonise the developing gut and to identify why some cells advance while others stay behind to populate a region. Directed cell migration is essential for normal development, including for the nervous system. In most of the migratory cell populations that have been analysed to date, all of the cells migrate as a collective from one location to another. However, there are also mi ....Neural migration: Which cells advance and which stay behind? This project aims to examine the neural crest cells that colonise the developing gut and to identify why some cells advance while others stay behind to populate a region. Directed cell migration is essential for normal development, including for the nervous system. In most of the migratory cell populations that have been analysed to date, all of the cells migrate as a collective from one location to another. However, there are also migratory cell populations that must populate the areas through which they migrate, and thus some cells get left behind while others advance. The planned data are likely to be relevant to other cell populations that also populate the areas through which they migrate, including neural crest-derived melanocytes and Schwann cell precursors.Read moreRead less
The jugular vagal sensory connectome regulating visceral function. Internal body organs have a rich supply of sensory nerve fibres that serve important roles in monitoring the local environment for normal and abnormal sensory stimuli. These nerve fibres have different origins and wire into brain circuits that regulate widely diverse physiological responses. In this study we aim to study the neural circuits and responses mediated by a group of these sensory nerves which has not been investigated ....The jugular vagal sensory connectome regulating visceral function. Internal body organs have a rich supply of sensory nerve fibres that serve important roles in monitoring the local environment for normal and abnormal sensory stimuli. These nerve fibres have different origins and wire into brain circuits that regulate widely diverse physiological responses. In this study we aim to study the neural circuits and responses mediated by a group of these sensory nerves which has not been investigated appreciably in the past. We believe that these sensory neural circuits will reveal important new insights into how internal organs perform their diverse and essential functions to sustain life.Read moreRead less