The Functional Basis Of Direction Selectivity In The Retina
Funder
National Health and Medical Research Council
Funding Amount
$376,320.00
Summary
Motion is an everday visual experience, and in this project we are attempting to explain how our brains are able to detect the direction in which an object is moving. Surprisingly this is first accomplished within the retina, the light-sensitive system of neurons at the back of the eye. Thus the eyes are able to tell the brain in which direction an object is moving. So the question becomes, how do the eyes do it? We know that there is a special class of neurons, the direction-selective ganglion ....Motion is an everday visual experience, and in this project we are attempting to explain how our brains are able to detect the direction in which an object is moving. Surprisingly this is first accomplished within the retina, the light-sensitive system of neurons at the back of the eye. Thus the eyes are able to tell the brain in which direction an object is moving. So the question becomes, how do the eyes do it? We know that there is a special class of neurons, the direction-selective ganglion cells, which are able to detect the direction of image motion. The activity of these cells is increased by excitatory connections and reduced by so-called inhibitory connections. This project aims to identify the neural origin of the inhibitory connections, and discover how the excitation and inhibition work together to compute the direction of motion.Read moreRead less
Mechanisms Underlying Acute Changes In Lung Function And Airway Responsiveness Following Respiratory Viral Infections
Funder
National Health and Medical Research Council
Funding Amount
$444,878.00
Summary
This study will investigate the mechanisms responsible for the increased airway responsiveness seen during respiratory viral infections to the common viruses of influenza (flu) and respiratory syncytial virus (RSV). Respiratory viral infections alter lung function and increase airway responsiveness in man. In addition, respiratory viral infections early in life are a risk factor for the subsequent development of asthma. The mechanisms responsible for this are unknown. Both the infecting virus an ....This study will investigate the mechanisms responsible for the increased airway responsiveness seen during respiratory viral infections to the common viruses of influenza (flu) and respiratory syncytial virus (RSV). Respiratory viral infections alter lung function and increase airway responsiveness in man. In addition, respiratory viral infections early in life are a risk factor for the subsequent development of asthma. The mechanisms responsible for this are unknown. Both the infecting virus and host factors, such as age of infection, gender and genetic predisposition, are likely to be important. OUTCOMES and SIGNIFICANCE: These studies will provide a comprehensive assessment of the effects of acute viral respiratory infections on lung function and airway responsiveness using cutting edge techniques developed in our labs. The results will provide new insights into how these infections cause lung disease and may provide clues for new approaches to prevent the adverse effects of these common respiratory viral infections.Read moreRead less
Postviral Wheezing In Childhood: Disregulation Of Airway Tone?
Funder
National Health and Medical Research Council
Funding Amount
$577,040.00
Summary
Asthma is a very common childhood condition that is becoming increasingly more common. Wheezing is common in infants and young children following viral infections and is often thought of as the first manifestation of asthma. However, many children and infants who wheeze with viral infections appear to grow out of asthma in their teenage years. Asthma that persists into adult life is usually associated with allergies to common environmental allergens, such as house dust mite and grass pollens. Ho ....Asthma is a very common childhood condition that is becoming increasingly more common. Wheezing is common in infants and young children following viral infections and is often thought of as the first manifestation of asthma. However, many children and infants who wheeze with viral infections appear to grow out of asthma in their teenage years. Asthma that persists into adult life is usually associated with allergies to common environmental allergens, such as house dust mite and grass pollens. However, many infants who wheeze with viral infections, especially in the first year of life, do not develop allergies in later life, raising the possibility that they did not have the same type of asthma as those whose symptoms persist. This project will study the effects of viral infections on lung function to determine whether particular types of virus can have detrimental effects of lung function lasting for years. We will also examine whether the age at which the infection occurs and the severity of the infection influence the long-term outcome. The project involves studying infants during the recovery phase of respiratory viral infections, older children years after documented infections and experimental animal models that have been infected under controlled conditions. By determining whether respiratory viral infections can have long-term effects on lung function that can mimic asthma, we will advance our understanding of how asthma develops. In addition, specific treatment and preventative strategies could then be developed to prevent these long-term abnormalities, instead of relying on asthma medication (especially inhaled corticosteroids) as is the current practice. Preventative strategies could include encouraging the development of specific vaccines.Read moreRead less
Store Operated Ca2+ Entry In Skeletal Fibres From Normal And Dystrophin-deficient Muscle.
Funder
National Health and Medical Research Council
Funding Amount
$351,790.00
Summary
Skeletal muscle, the most abundant tissue in the body, is essential for life and movement. Muscle function is regulated in a complex manner by calcium and is severely impaired in patients with Duchenne muscular dystrophy. Changes in calcium regulation, known to occur in dystrophic muscle, will be investigated in an animal model using a novel, single cell approach. Results obtained will contribute to understanding better muscular dystrophy and help provide therapeutic targets for treatment.
The Effect Of Metals On Neurofibrillary Tangle Formation
Funder
National Health and Medical Research Council
Funding Amount
$333,313.00
Summary
The majority of studies into Alzheimer's disease (AD) have focussed on two brain lesions- the plaque and neurofibrillary tangle (NFT), which are believed to have a causative role in AD. Our lab has made several seminal discoveries about the role that metals play in the development of plaques. We are now extending this work to evaluate the role of metals in NFT formation. These studies will provide insight into the formation and possible treatments for this primary brain lesion in AD.
Understanding The Genetic Determinants Of Central Corneal Thickness And Its Functional Role In Glaucoma Pathophysiology
Funder
National Health and Medical Research Council
Funding Amount
$297,263.00
Summary
Glaucoma is a common cause of blindness and visual diability in Australia. It is caused by a combination of environmental and genetic factors. People with a thin cornea (the clear covering at the front of the eye) are at increased risk of glaucoma. We are investigating the biological link between the cornea and glaucoma as well as identifying genes that determine corneal thickness. Some of these genes may also cause glaucoma. Understanding this will lead to better diagnosis and treatment.