Hybrid deep learning and graph matching segments whole hearts and great vessels in congenital heart disease CT images, achieving 11.9% higher average Dice score than prior methods on 68 scans across 14 CHD types.
CFUN: Combining Faster R-CNN and U-net Network for Efficient Whole Heart Segmentation
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abstract
In this paper, we propose a novel heart segmentation pipeline Combining Faster R-CNN and U-net Network (CFUN). Due to Faster R-CNN's precise localization ability and U-net's powerful segmentation ability, CFUN needs only one-step detection and segmentation inference to get the whole heart segmentation result, obtaining good results with significantly reduced computational cost. Besides, CFUN adopts a new loss function based on edge information named 3D Edge-loss as an auxiliary loss to accelerate the convergence of training and improve the segmentation results. Extensive experiments on the public dataset show that CFUN exhibits competitive segmentation performance in a sharply reduced inference time. Our source code and the model are publicly available at https://github.com/Wuziyi616/CFUN.
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2019 1verdicts
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Accurate Congenital Heart Disease Model Generation for 3D Printing
Hybrid deep learning and graph matching segments whole hearts and great vessels in congenital heart disease CT images, achieving 11.9% higher average Dice score than prior methods on 68 scans across 14 CHD types.