Bo-Soung Jeoun scite author profile

Bo-Soung Jeoun

4Publications

10Citation Statements Received

55Citation Statements Given

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Seoul National University

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Canal-Net for automatic and robust 3D segmentation of mandibular canals in CBCT images using a continuity-aware contextual network

Jeoun

Yang

Lee³

et al. 2022

Sci Rep

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The purpose of this study was to propose a continuity-aware contextual network (Canal-Net) for the automatic and robust 3D segmentation of the mandibular canal (MC) with high consistent accuracy throughout the entire MC volume in cone-beam CT (CBCT) images. The Canal-Net was designed based on a 3D U-Net with bidirectional convolutional long short-term memory (ConvLSTM) under a multi-task learning framework. Specifically, the Canal-Net learned the 3D anatomical context information of the MC by incorporating spatio-temporal features from ConvLSTM, and also the structural continuity of the overall MC volume under a multi-task learning framework using multi-planar projection losses complementally. The Canal-Net showed higher segmentation accuracies in 2D and 3D performance metrics (p < 0.05), and especially, a significant improvement in Dice similarity coefficient scores and mean curve distance (p < 0.05) throughout the entire MC volume compared to other popular deep learning networks. As a result, the Canal-Net achieved high consistent accuracy in 3D segmentations of the entire MC in spite of the areas of low visibility by the unclear and ambiguous cortical bone layer. Therefore, the Canal-Net demonstrated the automatic and robust 3D segmentation of the entire MC volume by improving structural continuity and boundary details of the MC in CBCT images.

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Canal-Net: Automatic and Robust 3D Segmentation of Mandibular Canals in CBCT Images Using a Continuity-Aware Contextual Network

Jeoun

Yang

Lee

et al. 2022

Preprint

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The purpose of this study was to propose a continuity-aware contextual network (Canal-Net) for the automatic and robust 3D segmentation of the mandibular canal (MC) with high consistent accuracy throughout the entire MC volume in cone-beam CT (CBCT) images. The Canal-Net was designed based on a 3D U-Net with bidirectional convolutional LSTM (ConvLSTM) under a multi-task learning framework. Specifically, the Canal-Net learned the 3D anatomical context information of the MC by incorporating spatio-temporal features from ConvLSTM, and also the structural continuity of the overall MC volume under a multi-task learning framework using multi-planar projection losses (MPL) complementally. The Canal-Net achieved higher segmentation accuracies compared to popular deep learning networks in 2D performance metrics of the Dice similarity coefficient score (DSC), Jaccard index (JI), precision (PR), and recall (RC), 3D performance metrics of volume of error (VOE), relative volume distance (RVD), and mean curve distance (MCD). The Canal-Net demonstrated a higher consistent accuracy of segmentation compared to other networks throughout the entire MC volume in the areas of low visibility by the unclear and ambiguous cortical bone layer. Furthermore, the Canal-Net outperformed other state-of-the-art networks in MC segmentation. Therefore, the continuity-aware contextual network (Canal-Net) demonstrated substantially enhanced performance for the automatic and robust 3D segmentation of the MC throughout the entire MC volume in CBCT images.

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Author Correction: Canal-Net for automatic and robust 3D segmentation of mandibular canals in CBCT images using a continuity-aware contextual network

Jeoun

Yang

Lee³

et al. 2022

Sci Rep

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Multi-class Segmentation of Anatomical Structures Using Deep Learning in CBCT Images Containing Metal Artifacts

Su¹,

Lee²,

Heo³

et al. 2022

KIEE

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Bo-Soung Jeoun

Canal-Net for automatic and robust 3D segmentation of mandibular canals in CBCT images using a continuity-aware contextual network

Canal-Net: Automatic and Robust 3D Segmentation of Mandibular Canals in CBCT Images Using a Continuity-Aware Contextual Network

Author Correction: Canal-Net for automatic and robust 3D segmentation of mandibular canals in CBCT images using a continuity-aware contextual network

Multi-class Segmentation of Anatomical Structures Using Deep Learning in CBCT Images Containing Metal Artifacts

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