Regulation Of Inflammatory And Epithelial Responses In An Experimental Model Of Chronic Human Asthma
Funder
National Health and Medical Research Council
Funding Amount
$164,061.00
Summary
This project examines how chronic inflammation and scarring develop in the walls of the airways in asthma. The particular role of allergic mechanisms and of specific types of cells that are involved in allergic inflammation will be tested, using a much-improved mouse model of asthma. In this experimental model, which was developed by the investigators, sensitised mice are chronically exposed to low concentrations of aerosolised egg white protein. The proposed studies will involve comparisons wit ....This project examines how chronic inflammation and scarring develop in the walls of the airways in asthma. The particular role of allergic mechanisms and of specific types of cells that are involved in allergic inflammation will be tested, using a much-improved mouse model of asthma. In this experimental model, which was developed by the investigators, sensitised mice are chronically exposed to low concentrations of aerosolised egg white protein. The proposed studies will involve comparisons with animals that are genetically deficient in their ability to produce certain inflammation-related molecules, as well as with mice treated with antibodies to block the action of other such molecules.Read moreRead less
While many cases of asthma are mild, severe cases require extensive health care resources and are virtually unresponsive to conventional treatment. This project will investigate whether specific compounds released from the airway are able to cause lung damage and airway abnormalities similar to that in severe asthma. We will investigate whether these changes are responsive to conventional therapy and investigate a potential treatment for regaining this responsiveness in severe asthma.
Mechanisms Of Airway Narrowing In Eosinophilic And Non-eosinophilic Asthma
Funder
National Health and Medical Research Council
Funding Amount
$500,593.00
Summary
Asthma is associated with excessive airway narrowing, increased thickness of the airway wall and inflammation, most typically with eosinophils. However, 50% of cases have few eosinophils and respond less well to current treatments. This project will examine differences in airway structure between patients with or without eosinophils, using post-mortem tissue, as part of an international research collaboration.