27 March 2008 A novel method of partitioning regions in lungs and their usage in feature extraction for reducing false positives
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Abstract
Chest X-ray (CXR) data is a 2D projection image. The main drawback of such an image is that each pixel of it represents a volumetric integration. This poses a challenge in detection and estimation of nodules and their characteristics. Due to human anatomy there are a lot of lung structures which can be falsely identified as nodules in a projection data. Detection of nodules with a large number of false positives (FP) adds more work for the radiologists. With the help of CAD algorithms we aim to identify regions which cause higher FP readings or provide additional information for nodule detection based on the human anatomy. Different lung regions have different image characteristics we take advantage of this and propose an automatic lung partitioning into vessel, apical, basal and exterior pulmonary regions. Anatomical landmarks like aortic arch and end of cardiac-notch along-with inter intra-rib width and their shape characteristics were used for this partitioning. Likelihood of FPs is more in vessel, apical and exterior pulmonary regions due to rib-crossing, overlap of vessel with rib and vessel branching. For each of these three cases, special features were designed based on histogram of rib slope and the structural properties of rib segments information. These features were assigned different weights based on the partitioning. An experiment was carried out using a prototype CAD system 150 routine CXR studies were acquired from three institutions (24 negatives, rest with one or more nodules). Our algorithm provided a sensitivity of 70.4% with 5 FP/image for cross-validation without partition. Inclusion of the proposed techniques increases the sensitivity to 78.1% with 4.1 FP/image.
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Mausumi Acharyya, Mausumi Acharyya, Dinesh M. Siddu, Dinesh M. Siddu, Alexandra Manevitch, Alexandra Manevitch, Jonathan Stoeckel, Jonathan Stoeckel, } "A novel method of partitioning regions in lungs and their usage in feature extraction for reducing false positives", Proc. SPIE 6915, Medical Imaging 2008: Computer-Aided Diagnosis, 69150Z (27 March 2008); doi: 10.1117/12.770603; https://doi.org/10.1117/12.770603
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