Kidney structures segmentation is a crucial yet challenging task in the computer-aided diagnosis of surgery-based renal cancer. Although numerous deep learning models have achieved remarkable success in many medical image segmentation tasks, accurate segmentation of kidney structures on computed tomography angiography (CTA) images remains challenging, due to the variable sizes of kidney tumors and the ambiguous boundaries between kidney structures and their surroundings. In this paper, we propose a boundary-aware network (BA-Net) to segment kidneys, kidney tumors, arteries, and veins on CTA scans. This model contains a shared encoder, a boundary decoder, and a segmentation decoder. The multi-scale deep supervision strategy is adopted on both decoders, which can alleviate the issues caused by variable tumor sizes. The boundary probability maps produced by the boundary decoder at each scale are used as attention to enhance the segmentation feature maps. We evaluated the BA-Net on the Kidney PArsing (KiPA) Challenge dataset and achieved an average Dice score of 89.65$\%$ for kidney structure segmentation on CTA scans using 4-fold cross-validation. The results demonstrate the effectiveness of the BA-Net.
翻译:肾脏结构分离是计算机辅助诊断外科肾癌的关键而具有挑战性的任务。虽然许多深层学习模型在许多医学图像分割任务中取得了显著的成功,但由于肾肿瘤的大小变化以及肾脏结构及其周围环境之间的界限模糊,计算成的断层成像图像上的肾脏结构的准确分离仍具有挑战性。本文提议建立一个边界认知网络(BA-Net),用于分肾、肾肿瘤、动脉和心血管的CTA扫描。该模型包含一个共享的编码器、边界解剖器和分解器。两种解析器都采用了多尺度的深度监督战略,可以缓解变形肿瘤大小造成的问题。每个比例的边界分解器所绘制的边界概率图被用来注意加强分解特征图。我们评估了Kidney Parring(KIPA)挑战数据集的BA-Net,并实现了用于肾脏结构分割的89.65美元/_____美元的平均Dice分数。使用四倍的CTA扫描结果展示了CTA系统扫描结果。
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