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SERU: A cascaded SE‐ResNeXT U‐Net for kidney and tumor segmentation

Xiuzhen Xie, Lei Li, Sheng Lian, Shaohao Chen, Zhiming Luo

2020Concurrency and Computation Practice and Experience41 citationsDOI

Abstract

Summary According to statistics, kidney cancer is one of the most deadly cancer. An early and accurate diagnosis can significantly increase the cure rate. Accurate segmentation of kidney tumors in CT images plays an important role in kidney cancer diagnosis. However, it is a challenging task due to many different aspects, such as low contrast, irregular motion, diverse shapes, and sizes. For solving this issue, we proposed a SE‐R esNeXT U ‐Net (SERU) model in this study, which takes the advantages of SE‐Net, ResNeXT and U‐Net. Besides, we implement our model in a coarse‐to‐fine manner to utilize the information of context and key slices from the left and right kidney. We train and test our method on the KiTS19 Challenge. Experimental results demonstrate that our model can achieve promising results.

Topics & Concepts

Net (polyhedron)SegmentationKidney cancerContext (archaeology)Computer scienceArtificial intelligenceKey (lock)KidneyTask (project management)CancerPattern recognition (psychology)MedicineMathematicsInternal medicineBiologyEngineeringSystems engineeringComputer securityPaleontologyGeometryAdvanced Neural Network ApplicationsRenal cell carcinoma treatmentRadiomics and Machine Learning in Medical Imaging