Automated atlas-based multi-label fetal cardiac vessel segmentation in Congenital Heart DiseaseDownload PDF

Paula Ramirez Gilliland, Alena Uus, Milou PM Van Poppel, Irina Grigorescu, Johannes K. Steinweg, David F A Lloyd, Kuberan Pushparajah, Andrew P. King, Maria Deprez

10 Dec 2021 (modified: 16 May 2023)Submitted to MIDL 2022Readers: Everyone
Keywords: Automated Segmentation, Deep Learning, Congenital Heart Disease, Fetal MRI, Fetal Cardiac Imaging, Label Propagation
Abstract: Congenital heart disease (CHD) is the most commonly diagnosed birth defect. T2w black blood MRI provides optimal vessel visualisation, aiding prenatal CHD diagnosis. Common clinical practice involves manual segmentation of fetal heart and vessels for visualisation and reporting purposes. We propose an automated multi-label fetal cardiac vessels deep learning segmentation approach for T2w black blood MRI. Our network is trained using single-label manual segmentations obtained through current clinical practice, combined with a multi-label anatomical atlas with desired multi-label segmentation protocol. Our framework combines deep learning label propagation with 3D residual U-Net segmentation to produce high-quality multi-label output well adapted to the individual subject anatomy. We train and evaluate the network using forty fetal subjects with suspected coarctation of the aorta, achieving a dice score of 0.$79 \pm0.02$ for the fetal cardiac vessels region. The proposed network outperforms the label propagation and achieves a statistically equivalent performance to a 3D residual U-Net trained exclusively on manual single-label data (p-value$>$0.05). This multi-label framework therefore represents an advancement over the single-label approach, providing label-specific anatomical information, particularly useful for assessing specific anomaly areas in CHD.
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Paper Type: both
Primary Subject Area: Segmentation
Secondary Subject Area: Image Registration
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