Combination of computer-aided detection algorithms for automatic lung nodule identification

Automated Medical image analysi Lung Neoplasms Pattern Recognition, Automated Diagnosis, Differential 03 medical and health sciences Computer-Assisted 0302 clinical medicine Pattern recognition Nuclear Medicine and Imaging Diagnosis Humans False Positive Reactions Computed tomography Tomography Computer-aided detection Health Informatic Radiographic Image Interpretation Solitary Pulmonary Nodule False Positive Reaction Neural Networks (Computer) X-Ray Computed Lung Neoplasm Algorithm ROC Curve Differential Radiographic Image Interpretation, Computer-Assisted Surgery Neural Networks, Computer Lung cancer Radiology Tomography, X-Ray Computed Algorithms Human
DOI: 10.1007/s11548-011-0637-6 Publication Date: 2011-07-07T03:22:45Z
ABSTRACT
The aim of this work is to evaluate the potential of combining different computer-aided detection (CADe) methods to increase the actual support for radiologists of automated systems in the identification of pulmonary nodules in CT scans.The outputs of three different CADe systems developed by researchers of the Italian MAGIC-5 collaboration were combined. The systems are: the CAMCADe (based on a Channeler-Ant-Model which segments vessel tree and nodule candidates and a neural classifier), the RGVPCADe (a Region-Growing- Volume-Plateau algorithm detects nodule candidates and a neural network reduces false positives); the VBNACADe (two dedicated procedures, based respectively on a 3D dot-enhancement algorithm and on intersections of pleura surface normals, identifies internal and juxtapleural nodules, and a Voxel-Based-Neural-Approach reduces false positives. A dedicated OsiriX plugin implemented with the Cocoa environments of MacOSX allows annotating nodules and visualizing singles and combined CADe findings.The combined CADe has been tested on thin slice (lower than 2 mm) CTs of the LIDC public research database and the results have been compared with those obtained by the single systems. The FROC (Free Receiver Operating Characteristic) curves show better results than the best of the single approaches.Has been demonstrated that the combination of different approaches offers better results than each single CADe system. A clinical validation of the combined CADe as second reader is being addressed by means of the dedicated OsiriX plugin.
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