Galectin-3 And Phagocyte Function In Severe Asthma
Funder
National Health and Medical Research Council
Funding Amount
$698,084.00
Summary
Asthma, a major chronic inflammatory disease affects more than 2 million Australians. Neutrophilic severe asthma is not responsive to current therapies. We have recently made a significant advance in understanding neutrophilic asthma, reporting low levels of a protein called galectin-3 (gal-3). In this project we will explore the role of gal-3 its effect on the resolution of inflammation. This study will result significantly advance the knowledge of the mechanisms of neutrophilic severe asthma.
Exploring The Role Of Respiratory Virus Infections In Childhood Asthma Exacerbations
Funder
National Health and Medical Research Council
Funding Amount
$596,649.00
Summary
The PEAK study will explore the reasons children get worse asthma symptoms when they get colds. These reasons examined include the asthma medications taken (or not taken), allergies and exposure to allergens and the type of virus involved. The study follows the children over the whole school term and uses a new way to sample virus by collecting it in the breath, this is more comfortable than old methods and can be done at home.
Asthma is a National Health Priority in Australia. This project follows the major international study of asthma and allergic diseases in adults. We will re-examine people who have taken part in previous studies in Melbourne. The project also surveys people of the same age currently living in the same area. Participants complete a short postal questionnaire. In the follow-up group, responders complete a more extensive questionnaire and come to our laboratory for clinical assessments.
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.
Understanding How Azithromycin Prevents Exacerbations In Severe Asthma
Funder
National Health and Medical Research Council
Funding Amount
$697,273.00
Summary
In some people with severe asthma, conventional inhaler treatments are not able to control the disease so there is a need for new treatment options. We have recently completed a large clinical trial which showed that very low doses of a common antibiotic help prevent asthma attacks in this situation. However, not much is known about how the antibiotic is working. This study will help us understand how the antibiotic is working and which people respond best.
Refining And Testing A Promising New Treatment For Chronic Pain.
Funder
National Health and Medical Research Council
Funding Amount
$743,947.00
Summary
Chronic pain costs Australia about 35 billion dollars a year. Recent scientific discoveries show that treatment aimed at correcting problems in how the brain processes sensory input can reduce pain and disability. This project will clarify some key aspects of these problems and use that information to make final adjustments to an already very promising treatment. We will then test the treatment in a definitive and comprehensive clinical trial.
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.
Perinatal Exposure To Household And Environmental Toxins And The Risk Of Asthma And Allergic Disease Up To 25 Years
Funder
National Health and Medical Research Council
Funding Amount
$291,078.00
Summary
Perinatal exposure to household and environmental toxins may increase asthma and allergic disease risk. Adverse exposures in this critical developmental window may have a marked and prolonged effect on health. A birth cohort of high-allergy risk children will be used to investigate the effect of common chemical exposures on the risk of asthma and allergic disease up to 25 years. This evidence could be used to inform guidelines on common household chemical exposures
Do Exposures Before Conception Influence The Risk Of Asthma In Offspring?
Funder
National Health and Medical Research Council
Funding Amount
$688,586.00
Summary
Asthma and poor lung function are major causes of public health issues. Emerging evidence suggests adverse exposures even before the conception of a child may cause these conditions. The proposed project is part of an international study across generations to identify these factors. This study will provide novel evidence to guide interventions and identify studies to advance this area further. These original findings will be of great importance both nationally and internationally.
Developmental-associated Dysregulation Of Innate Anti-microbial Immunity In Early Life As A Determinant Of Susceptibility To Atopic Asthma
Funder
National Health and Medical Research Council
Funding Amount
$570,334.00
Summary
Previous NHMRC-sponsored research from the applicants has demonstrated that one of the strongest risk factors for subsequent development of asthma is having chest infections during infancy that are so severe that they trigger symptoms of fever and wheeze. It is not known what predisposes susceptible infants to these severe infections, and this project will attempt to define the mechanisms of susceptibility.