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Medientyp:
E-Artikel
Titel:
Computer‐aided diagnosis of pulmonary nodules on CT scans: Segmentation and classification using 3D active contours
Beteiligte:
Way, Ted W.;
Hadjiiski, Lubomir M.;
Sahiner, Berkman;
Chan, Heang‐Ping;
Cascade, Philip N.;
Kazerooni, Ella A.;
Bogot, Naama;
Zhou, Chuan
Erschienen:
Wiley, 2006
Erschienen in:
Medical Physics, 33 (2006) 7Part1, Seite 2323-2337
Sprache:
Englisch
DOI:
10.1118/1.2207129
ISSN:
0094-2405;
2473-4209
Entstehung:
Anmerkungen:
Beschreibung:
We are developing a computer‐aided diagnosis (CAD) system to classify malignant and benign lung nodules found on CT scans. A fully automated system was designed to segment the nodule from its surrounding structured background in a local volume of interest (VOI) and to extract image features for classification. Image segmentation was performed with a three‐dimensional (3D) active contour (AC) method. A data set of 96 lung nodules (44 malignant, 52 benign) from 58 patients was used in this study. The 3D AC model is based on two‐dimensional AC with the addition of three new energy components to take advantage of 3D information: (1) 3D gradient, which guides the active contour to seek the object surface, (2) 3D curvature, which imposes a smoothness constraint in the direction, and (3) mask energy, which penalizes contours that grow beyond the pleura or thoracic wall. The search for the best energy weights in the 3D AC model was guided by a simplex optimization method. Morphological and gray‐level features were extracted from the segmented nodule. The rubber band straightening transform (RBST) was applied to the shell of voxels surrounding the nodule. Texture features based on run‐length statistics were extracted from the RBST image. A linear discriminant analysis classifier with stepwise feature selection was designed using a second simplex optimization to select the most effective features. Leave‐one‐case‐out resampling was used to train and test the CAD system. The system achieved a test area under the receiver operating characteristic curve of . Our preliminary results indicate that use of the 3D AC model and the 3D texture features surrounding the nodule is a promising approach to the segmentation and classification of lung nodules with CAD. The segmentation performance of the 3D AC model trained with our data set was evaluated with 23 nodules available in the Lung Image Database Consortium (LIDC). The lung nodule volumes segmented by the 3D AC model for best classification were generally larger than those outlined by the LIDC radiologists using visual judgment of nodule boundaries.