PURPOSE: To determine the utility of expiratory scans for diagnosis of
inhomogeneous attenuation on thin-section computed tomographic (CT) s
cans. MATERIALS AND METHODS: On the basis of clinical information and
pulmonary function test results disease in 53 patients with inhomogene
ous attenuation on inspiratory scans was classified into four groups-i
nfiltrative, airway, vascular, or mixed. Without knowledge of the diag
nosis, inhomogeneous attenuation was classified as (a) ground-glass op
acity due to infiltrative disease, (b) mosaic perfusion due to airway
disease, or (c) mosaic perfusion due to vascular-disease, and the degr
ee of confidence was indicated. Each case was reclassified if necessar
y on the basis of expiratory scan findings. RESULTS: A correct diagnos
is was made more often on the basis of both inspiratory and expiratory
scans than on the basis of inspiratory scans alone (92% [49 of 53 pat
ients] vs 79% [42 of 53], respectively [P <.05]). Accuracy increased f
rom 81% (21 of 26) to 89% (23 of 26) in cases of infiltrative disease
and from 84% (16 of 19) to 100% (19 of 19) in cases of airway disease.
A correct interpretation with high confidence level was reached more
often with scans than on the basis of inspiratory scans alone (92% [49
of 53] vs 45% [24 of 53], respectively [P< .0001]). The extent of air
trapping correlated significantly with pulmonary function test result
s. With expiratory Scans, the classification of inhomogeneous attenuat
ion was changed in 15% (eight of 53) of cases and the confidence level
was improved in 51% (27 of 53) (P< .0001). CONCLUSION: Expiratory sca
ns significantly improved diagnostic accuracy in patients with inhomog
eneous attenuation On inspiratory scans, and-they helped in the diagno
sis of diffuse lung disease.