A Randomised Controlled Trial Investigating The Respiratory Effects Of Nitrogen Dioxide In Schoolchildren
Funder
National Health and Medical Research Council
Funding Amount
$212,189.00
Summary
Research has shown that exposures to air pollutants such as nitrogen dioxide (NO2), sulphur dioxide, ozone and respirable particulate matter less than 10 microns are associated with respiratory symptoms. Unlike the other air pollutants nitrogen dioxide is an indoor gas which occurs in higher concentrations than outdoors in households which cook or heat with gas. Recent research has demonstrated that NO2 at concentrations easily achieved indoors can increase respiratory illness, particularly in c ....Research has shown that exposures to air pollutants such as nitrogen dioxide (NO2), sulphur dioxide, ozone and respirable particulate matter less than 10 microns are associated with respiratory symptoms. Unlike the other air pollutants nitrogen dioxide is an indoor gas which occurs in higher concentrations than outdoors in households which cook or heat with gas. Recent research has demonstrated that NO2 at concentrations easily achieved indoors can increase respiratory illness, particularly in children and asthmatics. In South Australia we have the opportunity to demonstrate health effects of NO2 on children with asthma more conclusively, as a high number of schools heat their classrooms with unflued gas heaters which produce high NO2. In the proposed study, half of the primary schools with unflued gas heaters will have these heaters replaced with heaters which do not emit NO2. This process of selecting schools will be performed at random and in the school holidays, so as not to bias the children in regard to their exposure status. Additionally, only asthmatic children without gas appliances at home will be included. Asthma symptoms and lung function measurements will be collected in order to determine any differences in the health outcomes of both groups. The results of this study will be able to give conclusive information on health effects related to NO2, that will substantially contribute to the development of a recommended NO2 guideline. This is of worldwide interest.Read moreRead less
Genetic and environmental causes of asthma are poorly understood. The WATCH for asthma project will study Western Australian (WA) families in which there was a twin or higher order multiple birth (twin families) in order to measure inherited and environmental contributions to the development of asthma. All WA twin families, whose infants were born during 1990 to 1995, will be invited to become part of an existing Healthway funded, population based registry of WA Twin Child Health (the WATCH stud ....Genetic and environmental causes of asthma are poorly understood. The WATCH for asthma project will study Western Australian (WA) families in which there was a twin or higher order multiple birth (twin families) in order to measure inherited and environmental contributions to the development of asthma. All WA twin families, whose infants were born during 1990 to 1995, will be invited to become part of an existing Healthway funded, population based registry of WA Twin Child Health (the WATCH study). The WATCH study has already invited 2,751 WA twin families to participate and is the only population based twin study in Australia. Funding of this study by NH and MRC will enable the extension of this unique registry to include more specific clinical information about those families in which one or more of the twins has asthma. In addition to questionnaire data, DNA and physiological information will be collected, including a potentially important new measure of airway inflammation, exhaled nitric oxide which has yet to be studied for familial aggregation. We will use the extended WATCH dataset to undertake a comprehensive investigation of the genetic epidemiology of childhood asthma. This work offers the potential to advance our current understanding of the causes of both childhood asthma and associated traits (e.g., 'twitchy' airways). By exploring the relationships between different components of asthma, we will generate information to assist us to design better epidemiological and genetic studies of asthma. At the time of recruitment, if consent is given, blood will also be taken for DNA extraction and frozen storage. This will generate a powerful data base that can later be used for to search at a molecular level for genes potentially important in causing childhood asthma. Finally, by extending the WATCH study database we will be enhancing a research resource that could potentially be used for future studies of common complex diseases other than asthma.Read moreRead less
Epidemiology Of Middle-age BHR: A Prospective Study From Childhood To Middle Age
Funder
National Health and Medical Research Council
Funding Amount
$593,840.00
Summary
Increased airway reactivity (BHR) in middle-age increases the risk of chronic respiratory diseases (CRDs) in old age, which are recognised as a major public health problem. Knowledge on the causes of these conditions is currently limited. This project will improve our understanding of the childhood and adult causes of increased reactivity of the airways in middle-age. Such knowledge will help in identifying preventive strategies for middle age BHR and thereby CRDs in old age.