Low-yield Cigarettes And Diminution Of Small Airways Lung Function In Long-term Smokers
Funder
National Health and Medical Research Council
Funding Amount
$209,500.00
Summary
The modern cigarette has been designed to produce low yields of tar when the tobacco in the cigarette is burnt. The tar contains human carcinogens, and monitoring and regulating yields of tar has long been part of the comprehensive tobacco control strategy in Australia. This focus on tar has given an implicit endorsement of the low-yield cigarette as a safer cigarette. Recently, however, controversy has emerged about whether smoking low-yield cigarettes has reduced the harm done by smoking. The ....The modern cigarette has been designed to produce low yields of tar when the tobacco in the cigarette is burnt. The tar contains human carcinogens, and monitoring and regulating yields of tar has long been part of the comprehensive tobacco control strategy in Australia. This focus on tar has given an implicit endorsement of the low-yield cigarette as a safer cigarette. Recently, however, controversy has emerged about whether smoking low-yield cigarettes has reduced the harm done by smoking. The concern is that adenocarcinoma of the lung, a type of lung cancer that is most common in the small peripheral airways, has increased in frequency. This could be because the low-yield cigarette, with reduced yields of nicotine as well as tar, is smoked more intensely by smokers to compensate for the low nicotine. By smoking more intensely, we mean taking larger and more frequent puffs, inhaling the smoke deeply into the lungs, and holding the breath before expiring. This method of smoking would result in more tar particles being deposited in the peripheries of the lung where adenocarcinoma is most common. Because cigarette smoking has been linked also with other structural changes in the small airways of the lung, resulting in obstruction of airflow, we will test whether smoking low-yield cigarettes is associated with greater obstruction of the small airways than is smoking higher-yield cigarettes. To test whether the mechanism is the method of smoking, we will carefully describe and quantify each subject's pattern of smoking including the deposition of smoke-like Technegas particles in the peripheral lung.Read moreRead less
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
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.