Sacral Parasympathetic Innervation Of Distal Bowel
Funder
National Health and Medical Research Council
Funding Amount
$314,983.00
Summary
Not a topic for polite conversation, normal movements of the colon and rectum are essential for good health and a sense of wellbeing. Constipation, diarrhoea, incontinence and pain result from disordered motility. One major control mechanism is the parasympathetic innervation. While we know of its importance, how it works in health and diseases is poorly understood. This project will use state-of-the-art techniques to study this pathway in order to understand its role in health and disease
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
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
Reduced Baroreceptor Reflex Control Of Heart Rate In Chronic Renal Failure
Funder
National Health and Medical Research Council
Funding Amount
$490,288.00
Summary
People with kidney disease are more likely to die of heart disease than their ailing kidneys. One reason is because their hearts do not respond properly to changes in blood pressure, as the nerve circuits controlling the heart become dysfunctional. We will examine where and why components of this circuit are unable to respond to changes in blood pressure. This will help guide new treatments to reduce the incidence of heart disease and risk of death associated with kidney disease.