Automated Pulmonary Lobar Ventilation Measurements Using Volume-matched Thoracic CT and MRI

作者:Guo F*; Svenningsen S; Bluemke E; Rajchl M; Yuan J; Fenster A; Parraga G
来源:Conference on Medical Imaging - Biomedical Applications in Molecular, Structural, and Functional Imaging, 2015-02-24 To 2015-02-26.
DOI:10.1117/12.2076398

摘要

Objectives: To develop and evaluate an automated registration and segmentation pipeline for regional lobar pulmonary structure-function measurements, using volume-matched thoracic CT and MRI in order to guide therapy. Methods: Ten subjects underwent pulmonary function tests and volume-matched H-1 and He-3 MRI and thoracic CT during a single 2 hr visit. CT was registered to H-1 MRI using an affine method that incorporated block-matching and this was followed by a deformable step using free-form deformation. The resultant deformation field was used to deform the associated CT lobe mask that was generated using commercial software. He-3-H-1 image registration used the same two-step registration method and He-3 ventilation was segmented using hierarchical k-means clustering. Whole lung and lobar He-3 ventilation and ventilation defect percent (VDP) were generated by mapping ventilation defects to CT-defined whole lung and lobe volumes. Target CT-He-3 registration accuracy was evaluated using region, surface distance-and volume-based metrics. Automated whole lung and lobar VDP was compared with semi-automated and manual results using paired t-tests. Results: The proposed pipeline yielded regional spatial agreement of 88.0+/-0.9% and surface distance error of 3.9+/-0.5 mm. Automated and manual whole lung and lobar ventilation and VDP were not significantly different and they were significantly correlated (r = 0.77, p < 0.0001). Conclusion: The proposed automated pipeline can be used to generate regional pulmonary structural-functional maps with high accuracy and robustness, providing an important tool for image-guided pulmonary interventions.

  • 出版日期2015