This paper assesses whether using clinical characteristics in addition to imaging can improve automated segmentation of kidney cancer on contrast-enhanced computed tomography (CT). A total of 300 kidney cancer patients with contrast-enhanced CT scans and clinical characteristics were included. A baseline segmentation of the kidney cancer was performed using a 3D U-Net. Input to the U-Net were the contrast-enhanced CT images, output were segmentations of kidney, kidney tumors, and kidney cysts. A cognizant sampling strategy was used to leverage clinical characteristics for improved segmentation. To this end, a Least Absolute Shrinkage and Selection Operator (LASSO) was used. Segmentations were evaluated using Dice and Surface Dice. Improvement in segmentation was assessed using Wilcoxon signed rank test. The baseline 3D U-Net showed a segmentation performance of 0.90 for kidney and kidney masses, i.e., kidney, tumor, and cyst, 0.29 for kidney masses, and 0.28 for kidney tumor, while the 3D U-Net trained with cognizant sampling enhanced the segmentation performance and reached Dice scores of 0.90, 0.39, and 0.38 respectively. To conclude, the cognizant sampling strategy leveraging the clinical characteristics significantly improved kidney cancer segmentation.


翻译:本文评估除了利用成像外,还利用临床特征是否可以改善通过对比强化计算成的透析法对肾癌进行自动分解。总共包括300名肾癌病人,通过对比强化的CT扫描和临床特征,使用3D U-Net对肾癌进行基线分解。对U-Net的投入是对比强化的CT图像,产出是肾、肾肿瘤和肾囊囊细胞的分解。采用认知抽样战略利用临床特征改善分化。为此,使用了最少绝对紧缩和选择操作员(LASSO),利用Dice和地表Dice对分解进行评估。利用Wilcoxon签署的等级测试对分解情况进行了评估。3D U-Net的输入显示肾和肾类的分解性表现为0.90,肾、肿瘤和肾囊囊细胞的分解性作用,0.29,肾脏质量为0.28,肾肿瘤的分解性特征为0.18,而3DU-Net受过认识取样培训的最小绝对分解和地分解操作器操作员(LASSO),并分别完成了0.30、0.38的临床分析结果。

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