Abstract
BackgroundSmall airways are regarded as the elective anatomic site of obstruction in most chronic airway diseases. Expiratory computed tomography (CT) is increasingly used to assess obstruction at this level but there is no consensus regarding the best quantification method. We aimed to evaluate software-assisted CT quantification of air trapping for assessing small airway obstruction and determine which CT criteria better predict small airway obstruction on single breath nitrogen test (SBNT).MethodsEighty-nine healthy volunteers age from 60 to 90 years old, underwent spirometrically-gated inspiratory (I) and expiratory (E) CT and pulmonary function tests (PFTs) using SBNT, performed on the same day. Air trapping was estimated using dedicated software measuring on inspiratory and expiratory CT low attenuation area (LAA) lung proportion and mean lung density (MLD). CT indexes were compared to SBNT results using the Spearman correlation coefficient and hierarchical dendrogram analysis. In addition, receiver operating characteristic (ROC) curve analysis was performed to determine the optimal CT air-trapping criterion.Results43 of 89 subjects (48,3%) had dN2 value above the threshold defining small airway obstruction (i.e. 2.5% N2/l). Expiratory to inspiratory MLD ratio (r = 0.40) and LAA for the range −850 -1024 HU (r = 0.29) and for the range −850 -910 HU (r = 0.37) were positively correlated with SBNT results. E/I MLD was the most suitable criterion for its expression. Expiratory to inspiratory MLD ratio (E/I MLD) showed the highest AUC value (0.733) for small airway obstruction assessment.ConclusionAmong all CT criteria, all correlating with small airway obstruction on SBNT, E/I MLD was the most suitable criterion for its expression in asymptomatic subjects with mild small airway obstructionTrial registrationRegistered at Clinicaltrials.gov, identifier: NCT01230879.
Highlights
Small airways are regarded as the elective anatomic site of obstruction in most chronic airway diseases
This study reports a clear relationship between spirometrically gated computed tomography (CT) air trapping quantification and physiological measurements of the small airways using single breath nitrogen test (SBNT)
Expiratory to inspiratory ratio and the difference between these values were calculated to characterize CT air trapping in order to overcome error related to decrease in lung density due to alveolar enlargement likely associated with age [26,27,28]
Summary
Small airways are regarded as the elective anatomic site of obstruction in most chronic airway diseases. Severity assessment and management of these diseases are defined according to clinical examination and routine pulmonary function tests (PFTs). These measurements are MBNT respectively) [6]. The application of an increasingly wide range of technological tools allows post-processing by segmentation software and quantifies air trapping objectively. Both a decrease in mean lung density and the percentage of low attenuation area on expiratory CT have been used in various study and correlated with disease severity in COPD and asthma [15,16,17]. The choice of one of these criteria may affect the results and there is, a crucial need for standardization in CT air trapping expression
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