2019
DOI: 10.3174/ajnr.a6138
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Convolutional Neural Network for Automated FLAIR Lesion Segmentation on Clinical Brain MR Imaging

Abstract: BACKGROUND AND PURPOSE: Most brain lesions are characterized by hyperintense signal on FLAIR. We sought to develop an automated deep learning-based method for segmentation of abnormalities on FLAIR and volumetric quantification on clinical brain MRIs across many pathologic entities and scanning parameters. We evaluated the performance of the algorithm compared with manual segmentation and existing automated methods. MATERIALS AND METHODS: We adapted a U-Net convolutional neural network architecture for brain M… Show more

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Cited by 66 publications
(58 citation statements)
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References 36 publications
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“…It uses a U-net convolutional neural network ( Ronneberger et al, 2015 ) architecture. Notably, Duong and colleagues ( Duong et al, 2019 ) and four of the top ten challengers of this challenge used this architecture, but they have not released a user-friendly version. We also did not include the promising LesionBRAIN ( Coupé et al, 2018 ) (Supplementary Table 4 ) because it does not provide the required segmentation mask.…”
Section: Discussionmentioning
confidence: 99%
“…It uses a U-net convolutional neural network ( Ronneberger et al, 2015 ) architecture. Notably, Duong and colleagues ( Duong et al, 2019 ) and four of the top ten challengers of this challenge used this architecture, but they have not released a user-friendly version. We also did not include the promising LesionBRAIN ( Coupé et al, 2018 ) (Supplementary Table 4 ) because it does not provide the required segmentation mask.…”
Section: Discussionmentioning
confidence: 99%
“…Deep learning, and more specifically convolutional neural networks (ConvNets), has become increasingly popular due to its competitive performance in medical image segmentation. Literature on brain lesion segmentation in MR images with ConvNets is dominated by approaches tested on human-derived data (e.g., Duong et al, 2019 ; Gabr et al, 2019 ; Yang et al, 2019 ). Despite using ConvNets, typical brain lesion segmentation approaches are multi-step, i.e., they rely on preprocessing procedures, such as noise reduction, registration, skull-stripping and inhomogeneity correction.…”
Section: Introductionmentioning
confidence: 99%
“…Indeed, another source of brain pathology that changes over time and to which CNN models have been applied with some success is tumor. Studies such as that of (Duong et al., 2019) suggest that training on numerous types of brain pathologies imaged with FLAIR, including tumor, can yield Dice coefficients between human and model segmentations on the order of 0.79. This apparently high level of overlap points to the potential of a multi-pathology approach.…”
Section: Discussionmentioning
confidence: 99%