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- Title
Effect of the respiratory motion of pulmonary nodules on CT-guided percutaneous transthoracic needle biopsy.
- Authors
Kim, Dasom; Han, Ji-Yeon; Baek, Jin Wook; Lee, Ho Young; Cho, Hwa Jin; Heo, Young Jin; Shin, Gi Won
- Abstract
Background: Computed tomography (CT)-guided percutaneous transthoracic needle biopsy (PTNB) is highly affected by respiratory motion; however, respiratory motion of target nodule during the PTNB and its effect on CT-guided lung biopsy have not been studied. Purpose: To investigate the effect of the respiratory motion of pulmonary nodules on CT-guided PTNB. Material and Methods: We retrospectively reviewed the procedural CT scans of 426 pulmonary nodules that underwent PTNB during quiet breathing. Maximal and average respiratory motions were measured using the difference of table position of the targeted nodule between multiple procedural scans. Diagnostic performance, complications, and technical factors of PTNB in nodules with large motion (maximal motion >1 cm) were compared with those in nodules with small motion (≤1 cm). Results: The mean maximal and average respiratory motions between tidal volume breathing were 5.4 ± 4.4 and 2.7 ± 2.6 mm, respectively. Sensitivity and accuracy were 93.1% and 96.1% in nodules with large motion, compared with 94.7% and 95.9% in nodules with small motion, respectively. Respiratory targeting (P < 0.001), needle modulation (P < 0.001), motion artifact of target (P < 0.001), target disappearance from scans (P < 0.001), and number of performed CT scans (P < 0.001) were significantly higher in the large motion group, with no significant difference in radiation dose and complications between the groups. Conclusion: The respiratory motion of pulmonary nodules during CT-guided PTNB may cause technical difficulties but does not affect diagnostic performance nor complications associated with PTNB.
- Subjects
PULMONARY nodules; NEEDLE biopsy; COMPUTED tomography; RADIATION doses; LUNGS
- Publication
Acta Radiologica, 2023, Vol 64, Issue 7, p2245
- ISSN
0284-1851
- Publication type
Article
- DOI
10.1177/02841851221144616