PERIPHERAL PULMONARY-ARTERIES - OPTIMIZATION OF THE SPIRAL CT ACQUISITION PROTOCOL

PURPOSE: To analyze the influence of collimation on identification of segmental and subsegmental pulmonary arteries on spiral computed tomog raphic (CT) scans. MATERIAL AND METHODS: Contrast material-enhanced sp iral CT scans were retrospectively analyzed. Patients in group A (n = 20) underwent CT with 3-mm collimation, 1.00 second per revolution, an d pitch of 1.7; those in group B (n = 20) underwent CT with 2-mm colli mation, 0.75 second per revolution, and pitch of 2.0. A total of 800 s egmental (20 arteries per patient) and 1,600 subsegmental. (40 arterie s per patient) arteries were assessed. RESULTS: The mean number of ana lyzable segmental arteries per patient was greater in group B patients (18.6 of 20.0 [93%]) than that in group A patients (17.0 of 20.0 [85% ]) (P <.001). The mean number of analyzable subsegmental arteries per patient was greater in group B patients (24.6 of 40.0 [61%]) than that in group A patients (14.8 of 40.0 [37%]) (P <.0001). Frequency of ide ntification on CT scans of 13 of the 40 subsegmental arteries was impr oved in group B compared with group A patients (P <.0001). CONCLUSION: Spiral CT with 2-mm collimation at 0.75 second per revolution enables marked improvement in the analysis of segmental and subsegmental pulm onary arteries.