RATIONALE AND OBJECTIVES: To assess the reproducibility of multidetector-row computed tomography (MDCT)-measured forced expiratory tracheal collapse in healthy volunteers. METHODS AND MATERIALS: Fourteen healthy, nonsmoking volunteers (6 males, 8 females, mean age 48.7 +/- 13.8 years) underwent repeat imaging 1 year after baseline imaging of tracheal dynamics employing the same scanner and technique (64-MDCT, 40 mAs, 120 kVp, and 0.625 mm detector collimation) with spirometric monitoring of total lung capacity and forced exhalation. Cross-sectional area (CSA) of the trachea was measured 1 cm above the aortic arch at end-inspiration and dynamic expiration, and percentage (%) expiratory reduction in tracheal lumen was calculated. Measurements were compared between baseline (Yr1) and repeat imaging (Yr2) using correlation coefficients and Bland-Altman plots. RESULTS: Mean end-inspiratory CSA was 255.3 +/- 56 mm(2) at Yr1 and 255.1 +/- 52 mm(2) at Yr2; mean dynamic expiratory CSA was 125.6 +/- 60 mm(2) at Yr1 and 132.1 +/- 58 mm(2) at Yr2; and mean % expiratory reduction was 51.7 +/- 18% at Yr1 and 48.7 +/- 19% at Yr2. Mean differences between Yr1 and Yr2 values were 0.2 mm(2) for end-inspiratory CSA, 6.5 mm(2) for dynamic expiratory CSA, and 3.0% for percentage expiratory reduction. There was excellent correlation between the Yr1 and Yr2 measures of end-inspiratory CSA (r(2) = 0.97, P < .001), dynamic expiratory CSA (r(2) = 0.89, P < .001), and % expiratory reduction (r(2) = 0.86, P < .001). CONCLUSION: MDCT measurements of forced expiratory tracheal collapse in healthy volunteers are highly reproducible over time. Copyright 2010 AUR. Published by Elsevier Inc. All rights reserved.
RATIONALE AND OBJECTIVES: To assess the reproducibility of multidetector-row computed tomography (MDCT)-measured forced expiratory tracheal collapse in healthy volunteers. METHODS AND MATERIALS: Fourteen healthy, nonsmoking volunteers (6 males, 8 females, mean age 48.7 +/- 13.8 years) underwent repeat imaging 1 year after baseline imaging of tracheal dynamics employing the same scanner and technique (64-MDCT, 40 mAs, 120 kVp, and 0.625 mm detector collimation) with spirometric monitoring of total lung capacity and forced exhalation. Cross-sectional area (CSA) of the trachea was measured 1 cm above the aortic arch at end-inspiration and dynamic expiration, and percentage (%) expiratory reduction in tracheal lumen was calculated. Measurements were compared between baseline (Yr1) and repeat imaging (Yr2) using correlation coefficients and Bland-Altman plots. RESULTS: Mean end-inspiratory CSA was 255.3 +/- 56 mm(2) at Yr1 and 255.1 +/- 52 mm(2) at Yr2; mean dynamic expiratory CSA was 125.6 +/- 60 mm(2) at Yr1 and 132.1 +/- 58 mm(2) at Yr2; and mean % expiratory reduction was 51.7 +/- 18% at Yr1 and 48.7 +/- 19% at Yr2. Mean differences between Yr1 and Yr2 values were 0.2 mm(2) for end-inspiratory CSA, 6.5 mm(2) for dynamic expiratory CSA, and 3.0% for percentage expiratory reduction. There was excellent correlation between the Yr1 and Yr2 measures of end-inspiratory CSA (r(2) = 0.97, P < .001), dynamic expiratory CSA (r(2) = 0.89, P < .001), and % expiratory reduction (r(2) = 0.86, P < .001). CONCLUSION: MDCT measurements of forced expiratory tracheal collapse in healthy volunteers are highly reproducible over time. Copyright 2010 AUR. Published by Elsevier Inc. All rights reserved.
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