Developing Lung Function Reference Ranges In Aboriginal Australians
Funder
National Health and Medical Research Council
Funding Amount
$875,382.00
Summary
Lung function in Aboriginal Australians may be up to 30% lower than that of the Caucasian population. Comparing a patient’s lung function result to normal is critical to help diagnose and manage lung diseases. There are no lung function normal ranges for Aboriginal Australians. Our study will measure lung function in healthy Aboriginal children and adults and develop Aboriginal specific reference values and thus help ensure the highest level of clinical care for Aboriginal patients.
Increasing the utility of tetanus toxins by protein engineering. There are a variety of common diseases that are the result of muscular defects. Some of these may be able to be treated with an agent that increases muscle tone, thereby giving benefit to the patient in the alleviation of symptoms. This project aims to use some of the most potent substances known, bacterial toxins, and engineer them to be valuable agents for treatment of certain muscular disorders.
Rhinovirus impairs physiological and immunological lung development and causes exacerbation of allergic airways disease. Rhinovirus (RV) infections account for around 90 per cent of asthma exacerbations, yet the mechanisms behind this are unknown. This project will use mouse models to study the effects of early life RV infection and allergic sensitisation on respiratory and immunological development, with the expectation that early life RV infection disrupts anitgen presenting cell function.
Investigating the actions of anti-inflammatory pathways in chronic lung disease. There is an urgent need to develop better drugs for Chronic Obstructive Pulmonary Disease (COPD) as patients become resistant to currently used anti-inflammatory drugs with disease progression. This research will uncover fundamental biology into an important class of anti-inflammatory receptor termed ALX/FPR2. This receptor normally coordinates the clearance of infection and injured tissue and subsequently switches ....Investigating the actions of anti-inflammatory pathways in chronic lung disease. There is an urgent need to develop better drugs for Chronic Obstructive Pulmonary Disease (COPD) as patients become resistant to currently used anti-inflammatory drugs with disease progression. This research will uncover fundamental biology into an important class of anti-inflammatory receptor termed ALX/FPR2. This receptor normally coordinates the clearance of infection and injured tissue and subsequently switches off inflammation. Essential knowledge into why this receptor pathway fails to switch off inflammation will be determined. Furthermore, the development of targeting strategies to this receptor represents an innovative approach to blocking damaging and chronic airway inflammation.Read moreRead less
Elucidating the post-transcriptional regulation of mast cell proteases. Mast cells (MCs) are immune cells that protect against pathogens but may induce deleterious inflammation. MC function is mediated by specific proteases that are pre-formed and stored in granules. These proteases have unique yet poorly understood mechanisms of regulation. The aim of the project is to use a novel suite of molecular tools and genetically modified mice to identify the critical regions of transcripts that post-tr ....Elucidating the post-transcriptional regulation of mast cell proteases. Mast cells (MCs) are immune cells that protect against pathogens but may induce deleterious inflammation. MC function is mediated by specific proteases that are pre-formed and stored in granules. These proteases have unique yet poorly understood mechanisms of regulation. The aim of the project is to use a novel suite of molecular tools and genetically modified mice to identify the critical regions of transcripts that post-transcriptionally regulate the production and storage of these proteins. The project aims to identify the RNA binding proteins, microRNAs and other novel factors that also regulate them. This is expected to elucidate the post-transcriptional mechanisms of regulation of MC proteases.Read moreRead less
Assessing a model of the physiological changes at arousal from sleep. Arousals from sleep are common in the elderly and have adverse consequences. This project will investigate a model of the changes in bodily processes (muscle, brain and cardiovascular activation) that occur when humans awaken from sleep.
Breathing disturbances and reflexes in sleep and effects on sleep and daytime function. This project will investigate protective reflexes in sleep and the impact of breathing disturbances and frequent arousal on markers of brain functioning and health. This will also significantly advance the understanding of key mechanisms promoting unstable breathing in sleep and ill health and functioning from disturbed sleep.
Silencing Pulmonary Nociceptors To Treat Severe Respiratory Viral Infections
Funder
National Health and Medical Research Council
Funding Amount
$534,173.00
Summary
The lungs receive a rich supply of nerve fibres, many of which play an important role in helping defend against pathogens, including viruses. When viral infections become severe, too much inflammation occurs in the lungs and this creates a serious and difficult to treat clinical problem. Hundreds of thousands of people each year die from the complications of severe lung infections. We are investigating a potential new therapy that targets the lung nerves and relieves excessive inflammation.
Risk Assessment And Prevention Of Respiratory Complications In Paediatric Anaesthesia
Funder
National Health and Medical Research Council
Funding Amount
$494,253.00
Summary
Respiratory problems account for more than three quarters of all critical incidents and a third of all cardiac arrests in healthy children undergoing anaesthesia for surgical procedures. It is therefore vital to identify high risk children early to be able to adapt the anaesthesia regimen accordingly. This series of studies will study new prediction and prevention strategies to minimise respiratory problems and therefore improve the safety for our children when undergoing anaesthesia.