Functional effect of longitudinal heterogeneity in constricted airways before and after lung expansion

Heterogeneity in narrowing among individual airways is an important contributor to airway hyperresponsiveness. This paper investigates the contribution of longitudinal heterogeneity (the variability along the airway in cross-sectional area and shape) to airway resistance (R(aw)). We analyzed chest high-resolution computed tomography scans of 8 asthmatic (AS) and 9 nonasthmatic (NA) subjects before and after methacholine (MCh) challenge, and after lung expansion to total lung capacity. In each subject, R(aw) was calculated for 35 defined central airways with >2 mm diameter. Ignoring the area variability and noncircular shape results in an underestimation of R(aw) (%U(total)) that was substantial in some airways (∼50%) but generally small (median <6%). The average contribution of the underestimation of R(aw) caused by longitudinal heterogeneity in the area (%U(area)) to %U(total) was 36%, while the rest was due to the noncircularity of the shape (%U(shape)). After MCh challenge, %U(area) increased in AS and NA (P < 0.05). A lung volume increase to TLC reduced %U(total) and %U(area) in both AS and NA (P < 0.0001, except for %U(total) in AS with P < 0.01). Only in NA, %U(shape) had a significant reduction after increasing lung volume to TLC (P < 0.005). %U(area) was highly correlated, but not identical to the mean-normalized longitudinal heterogeneity in the cross-sectional area [CV(2)(A)] and %U(shape) to the average eccentricity of the elliptical shape. This study demonstrates that R(aw) calculated assuming a cylindrical shape and derived from an average area along its length may, in some airways, substantially underestimate R(aw). The observed changes in underestimations of R(aw) with the increase in lung volume to total lung capacity may be consistent with, and contribute in part to, the differences in effects of deep inhalations in airway function between AS and NA subjects.