4.7 Article

Sex Differences in Airways at Chest CT: Results from the COPDGene Cohort

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RADIOLOGY
卷 305, 期 3, 页码 699-708

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RADIOLOGICAL SOC NORTH AMERICA (RSNA)
DOI: 10.1148/radiol.212985

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This study aimed to evaluate the possible reasons for gender differences in COPD. By quantitatively analyzing CT images, it was found that women had smaller airway lumen sizes than men after accounting for height and lung size, which contributed to the differences in clinical outcomes and survival rates between genders in COPD.
Background: The prevalence of chronic obstructive pulmonary disease (COPD) in women is fast approaching that in men, and women experience greater symptom burden. Although sex differences in emphysema have been reported, differences in airways have not been systematically characterized. Purpose: To evaluate whether structural differences in airways may underlie some of the sex differences in COPD prevalence and clinical outcomes. Materials and Methods: In a secondary analyses of a multicenter study of never-, current-, and former-smokers enrolled from January 2008 to June 2011 and followed up longitudinally until November 2020, airway disease on CT images was quantified using seven metrics: airway wall thickness, wall area percent, and square root of the wall thickness of a hypothetical airway with internal perimeter of 10 mm (referred to as Pi10) for airway wall; and lumen diameter, airway volume, total airway count, and airway fractal dimension for airway lumen. Least-squares mean values for each airway metric were calculated and adjusted for age, height, ethnicity, body mass index, pack-years of smoking, current smoking status, total lung capacity, display field of view, and scanner type. In ever-smokers, associations were tested between each airway metric and postbronchodilator forced expiratory volume in 1 second (FEV 1)-to-forced vital capacity (FVC) ratio, modified Medical Research Council dyspnea scale, St George's Respiratory Questionnaire score, and 6-minute walk distance. Multivariable Cox proportional hazards models were created to evaluate the sex-specific association between each airway metric and mortality. Results: In never-smokers (n = 420), men had thicker airway walls than women as quantified on CT images for segmental airway wall area percentage (least-squares mean, 47.68 +/- 0.61 [standard error] vs 45.78 +/- 0.55; difference, -1.90; P =.02), whereas airway lumen dimensions were lower in women than men after accounting for height and total lung capacity (segmental lumen diameter, 8.05 mm +/- 0.14 vs 9.05 mm +/- 0.16; difference, -1.00 mm; P <.001). In ever-smokers (n = 9363), men had greater segmental airway wall area percentage (least-squares mean, 52.19 +/- 0.16 vs 48.89 +/- 0.18; difference, -3.30; P <.001), whereas women had narrower segmental lumen diameter (7.80 mm +/- 0.05 vs 8.69 mm +/- 0.04; difference, -0.89; P <.001). A unit change in each of the airway metrics (higher wall or lower lumen measure) resulted in lower FEV1-to-FVC ratio, more dyspnea, poorer respiratory quality of life, lower 6-minute walk distance, and worse survival in women compared with men (all P <.01). Conclusion: Airway lumen sizes quantified at chest CT were smaller in women than in men after accounting for height and lung size, and these lower baseline values in women conferred lower reserves against respiratory morbidity and mortality for equivalent changes compared with men. (c) RSNA, 2022

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