Abstract
BackgroundAir pollution, mainly from combustion, is one of the leading global health risk factors. A susceptible group is the more than 200 million people worldwide suffering from chronic obstructive pulmonary disease (COPD). There are few data on lung deposition of airborne particles in patients with COPD and none for combustion particles.ObjectivesTo determine respiratory tract deposition of diesel combustion particles in patients with COPD during spontaneous breathing.MethodsTen COPD patients and seven healthy subjects inhaled diesel exhaust particles generated during idling and transient driving in an exposure chamber. The respiratory tract deposition of the particles was measured in the size range 10–500 nm during spontaneous breathing.ResultsThe deposited dose rate increased with increasing severity of the disease. However, the deposition probability of the ultrafine combustion particles (< 100 nm) was decreased in COPD patients. The deposition probability was associated with both breathing parameters and lung function, but could be predicted only based on lung function.ConclusionsThe higher deposited dose rate of inhaled air pollution particles in COPD patients may be one of the factors contributing to their increased vulnerability. The strong correlations between lung function and particle deposition, especially in the size range of 20–30 nm, suggest that altered particle deposition could be used as an indicator respiratory disease.
Highlights
Air pollution, mainly from combustion, is one of the leading global health risk factors
The deposited dose rate increased with increasing severity of the disease
The higher deposited dose rate of inhaled air pollution particles in chronic obstructive pulmonary disease (COPD) patients may be one of the factors contributing to their increased vulnerability
Summary
Mainly from combustion, is one of the leading global health risk factors. Air pollution in urban and indoor environments is one of the leading global adverse health factors [3]. The two most important individual characteristics determining the probability of an inhaled particle to deposit in the lungs are breathing pattern and lung morphology Both these are substantially altered in patients with COPD. Few studies are available on respiratory tract particle deposition in COPD patients in the size range below 1 μm, where much of the ambient airborne particle pollution is found [4,5,6] Of these studies, only one investigate a size range which partly covers typical ambient aerosol (20–240 nm, [4]), while the other two examines particles of a single size (33 nm and 100 nm, respectively, [5,6]). Since just one of the studies ([5], using 33 nm particles) varied flow rates while the others kept them constant, relationships between breathing pattern and deposition are not easy to establish
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