Airway Epithelial Barrier Function, Asthma And Aero-allergen Sensitization.
Funder
National Health and Medical Research Council
Funding Amount
$527,886.00
Summary
There is a strong association between allergy and asthma. This association been almost universally assumed to be causative. However, recent evidence suggests an alternative explanation ie., that the abnormal epithelium in asthma allows or facilitates sensitization to airborne allergens. This project will test this alternative hypothesis using human lung tissue and an animal model.
Systems Biology Of Asthma Development In Early Childhood
Funder
National Health and Medical Research Council
Funding Amount
$763,800.00
Summary
Recent studies have established that both human genetic susceptibility and viral infections during early childhood are important drivers of asthma development. It has also been noted that asthmatics’ airways are colonized with different bacteria to non-asthmatics. In this project we will examine how genetic susceptibility and interactions between bacteria and viruses in children's airways promote the development of allergy and asthma.
Longitudinal Characterization Of Respiratory And Immune Development From Birth To Adulthood In The Perth Respiratory Birth Cohort
Funder
National Health and Medical Research Council
Funding Amount
$528,885.00
Summary
The Perth Respiratory Birth Cohort Study began in 1987 and has assessed 253 children before birth and at follow-up at 1, 6 & 12 months, and 6, 11 & 18 years of age. The study has resulted in 63 publications and achieved consistent international prominence. The proposed study of the cohort at 24 yrs aims to determine the respiratory and immunological status of the cohort as young adults. This follow-up is essential to determine how early risk factors affect respiratory outcome in young adults.
A POPULATION-BASED COHORT INVESTIGATION OF LUNG FUNCTION IN RELATION TO EARLY LIFE LOWER RESPIRATORY TRACT ILLNESS AND AEROALLERGN SENSITISATION
Funder
National Health and Medical Research Council
Funding Amount
$456,013.00
Summary
Infancy appears to be the critical developmental window during which important alterations in lung structure and function develop. In this study we will assess how early lung function evolves in relation to potential insults such as lower respiratory tract infections and allergic inflammation. These are the mechanisms by which asthma is thought to develop. We will use exciting new lung function tests to evaluate lung function abnormalities associated with peripheral dysfunction characteristic of ....Infancy appears to be the critical developmental window during which important alterations in lung structure and function develop. In this study we will assess how early lung function evolves in relation to potential insults such as lower respiratory tract infections and allergic inflammation. These are the mechanisms by which asthma is thought to develop. We will use exciting new lung function tests to evaluate lung function abnormalities associated with peripheral dysfunction characteristic of chronic airway disease such as asthma.Read moreRead less
Towards Reducing The Susceptibility Of “high Risk” Infants To Allergic Asthma By Therapeutic Modulation Of Immunoregulatory Functions In The Pregnant Mother.
Funder
National Health and Medical Research Council
Funding Amount
$445,681.00
Summary
This project will deliver information in relation to the potential use and underlying modes of action of a therapeutic agent fed to pregnant mothers at high risk for atopic children, to protect against allergic asthma development in their offspring. Furthermore, the project will address the benefits of this therapeutic agent in relation to protection against inflammation induced preterm birth.
Antiviral Defects Of The Airway Epithelium Associated With Wheeze And Atopy In Children
Funder
National Health and Medical Research Council
Funding Amount
$658,571.00
Summary
Asthma affects 10-15% of Australian. Repeated respiratory viral infections increase the risk of developing asthma, and are also the principal cause of asthma attacks. Asthmatics may be more susceptible to respiratory viral infections due to a defect in the innate antiviral response to infection. Here we aim to identify defects in the antiviral response of children who are at risk of developing asthma, and understand how they occur so that future therapies may be developed.
Localised Airway Reactivity As A Determinant Of Asthma Control And AHR
Funder
National Health and Medical Research Council
Funding Amount
$306,562.00
Summary
Asthma morbidity and mortality remain high, with drug cost, days lost from school and work. This may be due to severe asthma in which control cannot be attained. This may be due to localised regions of lung that remain persistently responsive to inhaled irritants. We will examine the location and size of these regions using 3-dimensional ventilation scanning. The potential importance of our findings is in providing a basis for improving treatment in resistant, severe asthma.
Elucidating The Roles And Mechanisms Of Activation Of NLRP3 Inflammasomes And Developing Therapeutic Interventions For Severe Steroid-resistant Asthma
Funder
National Health and Medical Research Council
Funding Amount
$961,929.00
Summary
Severe asthma is a major clinical issue. There are no effective treatments because we don’t understand how it occurs. We have identified a factor called an “inflammasome” that we think causes severe asthma. We have produced a new inhibitor of this factor, and shown experimentally that it may suppress important symptoms of severe asthma. We now aim to work out precisely how this inflammasome causes severe asthma and progress our new inhibitor towards therapeutic development.
Targeting Neutrophil Extracellular Traps To Reduce Inflammation In Severe Asthma
Funder
National Health and Medical Research Council
Funding Amount
$585,240.00
Summary
People with severe asthma, a chronic disease of the lungs, often have many inflammatory cells in the airways called neutrophils. Neutrophils release a meshwork of fibers in a web like trap called NETs, which are made of the cells DNA and other proteins that fight infection. These NETs can promote inflammation in the persons airways. Current asthma treatments have no effect on NETs. This project will measure NETs in the airways and test a new treatment to reduce NETs, and relieve asthma symptoms.
Elucidating The Mechanisms Of Infection-induced, Steroid-resistant Asthma
Funder
National Health and Medical Research Council
Funding Amount
$348,070.00
Summary
Steroid-resistant asthma is an important clinical problem and effective therapies are urgently required. Substantial evidence links bacterial and viral respiratory infections with steroid-resistant asthma, however, how infections are associated with steroid-resistant asthma is not known. This project will investigate the role of specific immune factors, that we have identified, in infection-induced steroid-resistant asthma. Our project may identify new therapeutic targets for this severe form of ....Steroid-resistant asthma is an important clinical problem and effective therapies are urgently required. Substantial evidence links bacterial and viral respiratory infections with steroid-resistant asthma, however, how infections are associated with steroid-resistant asthma is not known. This project will investigate the role of specific immune factors, that we have identified, in infection-induced steroid-resistant asthma. Our project may identify new therapeutic targets for this severe form of asthma.Read moreRead less