Carbon in Airway Macrophages and Lung Function in Children

doi:10.1056/NEJMoa052972

Volume 355:21-30		July 6, 2006		Number 1

Carbon in Airway Macrophages and Lung Function in Children

Neeta Kulkarni, M.D., Nevil Pierse, M.Sc., Lesley Rushton, Ph.D., and Jonathan Grigg, M.D.

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by Gauderman, W. J.

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ABSTRACT

Background Epidemiologic studies indirectly suggest that theinhalation of carbonaceous particulate matter impairs lung functionin children. Using the carbon content of airway macrophagesas a marker of individual exposure to particulate matter derivedfrom fossil fuel, we sought direct evidence of this association.

Methods Airway macrophages were obtained from healthy childrenthrough sputum induction, and the area of airway macrophagesoccupied by carbon was measured. Lung function was measuredwith the use of spirometry. We modeled the exposure to primaryparticulate matter (PM) that is less than 10 µm in aerodynamicdiameter (PM₁₀) at or near each child's home address. Linearregression was used to evaluate associations between carboncontent of alveolar macrophages and variables that may affectindividual exposure. To determine whether lung function thatis reduced for other reasons is associated with an increasein the carbon content of airway macrophages, we also studiedchildren with severe asthma.

Results We were able to assess the carbon content of airwaymacrophages in 64 of 114 healthy children (56 percent). Eachincrease in primary PM₁₀ of 1.0 µg per cubic meter wasassociated with an increase of 0.10 µm² (95 percent confidenceinterval, 0.01 to 0.18) in the carbon content of airway macrophages,and each increase of 1.0 µm² in carbon content was associatedwith a reduction of 17 percent (95 percent confidence interval,5.6 to 28.4 percent) in forced expiratory volume in one second,of 12.9 percent (95 percent confidence interval, 0.9 to 24.8percent) in forced vital capacity, and of 34.7 percent (95 percentconfidence interval, 11.3 to 58.1 percent) in the forced expiratoryflow between 25 and 75 percent of the forced vital capacity.The carbon content of airway macrophages was lower in childrenwith asthma than in healthy children.

Conclusions There is a dose-dependent inverse association betweenthe carbon content of airway macrophages and lung function inchildren. We found no evidence that reduced lung function itselfcauses an increase in carbon content.

Source Information

From the Division of Child Health, Department of Infection, Immunity, and Inflammation (N.K., J.G.), and the Institute for Environment and Health (N.P., L.R.), University of Leicester, Leicester, United Kingdom.

Address reprint requests to Prof. Grigg at the Institute of Cell and Molecular Science, Barts and the London, Queen Mary's School of Medicine and Dentistry, 4 Newark St., London E1 2AT, United Kingdom, or at j.grigg{at}qmul.ac.uk.

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Related Letters:

Inhaled Carbon and Lung Function in Children
Bates D. V., Hogg J. C., Bruce N. G., Dherani M. K., Smith K. R., Gohil J. R., Grigg J.
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N Engl J Med 2006; 355:1496-1497, Oct 5, 2006. Correspondence

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