Central command neurons integrating cardiorespiratory drive in exercise. The ability to perform exercise is fundamental to human health and welfare. This ability depends upon the co-ordination by the brain of respiratory and cardiovascular function, such that the delivery of oxygen to exercising muscles is maximised. This project will test the idea that there is a specific group of neurons in the brain that drive both the respiratory and cardiovascular changes that occur during exercise, and w ....Central command neurons integrating cardiorespiratory drive in exercise. The ability to perform exercise is fundamental to human health and welfare. This ability depends upon the co-ordination by the brain of respiratory and cardiovascular function, such that the delivery of oxygen to exercising muscles is maximised. This project will test the idea that there is a specific group of neurons in the brain that drive both the respiratory and cardiovascular changes that occur during exercise, and will determine the location and functions of such neurons. Such new knowledge will help us understand how the brain optimises the ability of the body to perform exercise. This is of fundamental importance in sports science, a field in which Australia excels.Read moreRead less
Shaping the heart in early development - new insights into cellular modelling processes. Heart health is an important contributor to quality of life and longevity. This research will provide new insights into the way hormonal influences early in development shape a healthy heart. The project builds on the application of recently patented, sophisticated cell imaging techniques. Research students and trainees recruited to this project will benefit from their involvement with this leading edge tech ....Shaping the heart in early development - new insights into cellular modelling processes. Heart health is an important contributor to quality of life and longevity. This research will provide new insights into the way hormonal influences early in development shape a healthy heart. The project builds on the application of recently patented, sophisticated cell imaging techniques. Research students and trainees recruited to this project will benefit from their involvement with this leading edge technology. These studies are important in providing a basis for developing optimal management strategies for congenital heart conditions and preterm infants. Improved knowledge of the cardiac effects of fetal and neonatal exposure to steroids (to assist with lung maturation in prematurity or to control maternal asthma) will be gained.Read moreRead less
Cardiovascular and Respiratory Activity During Sleep Onset. Going to sleep requires that behavioural and physiological activities be modified. This is achieved by the integrated activity of sleep mechanisms and the circadian system. In this project we will investigate the nature of the regulatory control exerted by sleep mechanisms over respiration and cardiovascular activity at sleep onset, how sleep control interacts with circadian influence, and the nature of cardio-respiratory activity when ....Cardiovascular and Respiratory Activity During Sleep Onset. Going to sleep requires that behavioural and physiological activities be modified. This is achieved by the integrated activity of sleep mechanisms and the circadian system. In this project we will investigate the nature of the regulatory control exerted by sleep mechanisms over respiration and cardiovascular activity at sleep onset, how sleep control interacts with circadian influence, and the nature of cardio-respiratory activity when sleep control is removed at an arousal from sleep. It is anticipated that a better understanding of the regulatory control exerted by sleep over other systems will improve our understanding of sleep disorders.Read moreRead less
Respiratory and Cardiovascular Activation at Arousal from Sleep. An arousal from sleep, no matter how brief, is assciated with increased activity in the respiratory and cardiac systems. Under normal circumstances the response is considered adaptive. However, in disorders of sleep in which individuals arouse frequently and their sleep is fragmented, such as in Obstructive Sleep Apnea, the phenomenon has been linked to hypertension. While the clinical consequences of sleep fragmentation are now ap ....Respiratory and Cardiovascular Activation at Arousal from Sleep. An arousal from sleep, no matter how brief, is assciated with increased activity in the respiratory and cardiac systems. Under normal circumstances the response is considered adaptive. However, in disorders of sleep in which individuals arouse frequently and their sleep is fragmented, such as in Obstructive Sleep Apnea, the phenomenon has been linked to hypertension. While the clinical consequences of sleep fragmentation are now apparent, the mechanism that causes the increase in physiological activity at each arousal, is not known. The aim of this project will provide insight into the mechanism that produces the activation response and provide a basis for minimising the cardiac consequences of sleep disorders.Read moreRead less
Development and Characterization of Chemokine Receptor Mimics. The proposed research will provide important fundamental insights into the molecular events underlying inflammatory diseases and cancer metastasis. The innovative nature of the research and the significance of the results will enhance Australia's international research standing. Moreover, the insights gained from this work will contribute to the development of therapies that will ultimately enhance the quality of life for Australia ....Development and Characterization of Chemokine Receptor Mimics. The proposed research will provide important fundamental insights into the molecular events underlying inflammatory diseases and cancer metastasis. The innovative nature of the research and the significance of the results will enhance Australia's international research standing. Moreover, the insights gained from this work will contribute to the development of therapies that will ultimately enhance the quality of life for Australians.Read moreRead less
Special Research Initiatives - Grant ID: SR0563610
Funder
Australian Research Council
Funding Amount
$111,115.00
Summary
Developing an E-Platform for Application of Clinical Management in the Human Respiratory and Vascular System. This project aims to develop an E-PLATFORM that will provide a simulation-based virtual reality environment for clinical management and therapy treatment in the human respiratory and vascular system. One significant feature of the expected outcomes is the ability for surgeon or physician to adequately plan their treatment or operation decision-making of respiratory or vascular disease, i ....Developing an E-Platform for Application of Clinical Management in the Human Respiratory and Vascular System. This project aims to develop an E-PLATFORM that will provide a simulation-based virtual reality environment for clinical management and therapy treatment in the human respiratory and vascular system. One significant feature of the expected outcomes is the ability for surgeon or physician to adequately plan their treatment or operation decision-making of respiratory or vascular disease, in particular, from the point of view of flow analysis using state-of-the-art computational fluid dynamics techniques. This research proposal aims to facilitate new medical research and development for treatment of respiratory and/or vascular diseases, which can have a great socioeconomic benefit to the Australian community.Read moreRead less
Fluid mechanics and physiology of blockages in vascular systems. Vascular disease is a major health problem both in Australia and worldwide. In particular, cardiovascular disease is a major killer of adult Australians. Engineers and mathematicians working with biologists will gain a greater understanding of vascular diseases, a major health problem, including cardiovascular disease, which is one of the biggest killers worldwide, as well as tackling renal circulation problems, which are a signifi ....Fluid mechanics and physiology of blockages in vascular systems. Vascular disease is a major health problem both in Australia and worldwide. In particular, cardiovascular disease is a major killer of adult Australians. Engineers and mathematicians working with biologists will gain a greater understanding of vascular diseases, a major health problem, including cardiovascular disease, which is one of the biggest killers worldwide, as well as tackling renal circulation problems, which are a significant problem and may contribute to hypertension. Detailed measurement and prediction will be undertaken of the mechanical loading and response of cells to their microenvironment, an important first step to controlling pathological responses which lead to a variety of autoimmune problems.Read moreRead less
Engineering Imaging and Supercomputer Prediction of Biofluid Flows. The potential of the information gained from the lung imaging for improving the diagnosis and monitoring of adult respiratory diseases, such as emphysema, pulmonary fibrosis and asthma, is enormous. Abnormalities in the structure and function of the kidney circulation are likely key factors causing hypertension, so a detailed understanding of the kidney circulation is required before we can cure or prevent hypertension. The rese ....Engineering Imaging and Supercomputer Prediction of Biofluid Flows. The potential of the information gained from the lung imaging for improving the diagnosis and monitoring of adult respiratory diseases, such as emphysema, pulmonary fibrosis and asthma, is enormous. Abnormalities in the structure and function of the kidney circulation are likely key factors causing hypertension, so a detailed understanding of the kidney circulation is required before we can cure or prevent hypertension. The research underpinning cardiovascular and renal flows will assist in the understanding of hypertension, a major risk factor for cardiovascular disease, which accounts for approximately 40% of all deaths in Australia and particularly high for dialysis patients. Read moreRead less
Advanced Bayesian Networks for Epidemiology. We will demonstrate the potential of advanced Artificial Intelligence for medical informatics by extending the capabilities of Bayesian Networks. Bayesian Networks excel when researchers need to combine causal and diagnostic reasoning in areas characterised by uncertainty. But they have one flaw which hinders their use: they do not yet easily mix continuous and discrete variables. We will extend them to handle such mixes, then demonstrate how much the ....Advanced Bayesian Networks for Epidemiology. We will demonstrate the potential of advanced Artificial Intelligence for medical informatics by extending the capabilities of Bayesian Networks. Bayesian Networks excel when researchers need to combine causal and diagnostic reasoning in areas characterised by uncertainty. But they have one flaw which hinders their use: they do not yet easily mix continuous and discrete variables. We will extend them to handle such mixes, then demonstrate how much they can improve on current methods for predicting, among other things, coronary heart disease (CHD).Read moreRead less
Impact of shear stress on vascular adaptations in humans. Large arteries are important for the delivery of blood and oxygen to organs such as the heart and brain. A primary physiological stimulus which controls the size and function of these crucial arteries is the magnitude of flow or, more accurately, shear force that the inner wall of the artery is exposed to. We have developed novel software which enables non-invasive assessment of arterial wall velocity, diameter and blood flow. We will ass ....Impact of shear stress on vascular adaptations in humans. Large arteries are important for the delivery of blood and oxygen to organs such as the heart and brain. A primary physiological stimulus which controls the size and function of these crucial arteries is the magnitude of flow or, more accurately, shear force that the inner wall of the artery is exposed to. We have developed novel software which enables non-invasive assessment of arterial wall velocity, diameter and blood flow. We will assess the impact of acute and chronic changes in wall flow and shear on arterial size and function. We will also develop new software which measures other aspects of artery wall behaviour. These basic human physiology studies have direct implications for assessment of artery health in humans.Read moreRead less