The authors propose a method for accurate segmentation of fractured bones in CT scans, which is an essential step for preoperative planning of fracture trauma surgery. The key challenges include the large differences in fracture position and morphology, as well as the inherent anatomical characteristics of bone structures.
To address these issues, the authors introduce a cross-scale attention mechanism to effectively aggregate features across different scales, providing more powerful fracture representation. Additionally, they employ a surface supervision strategy to explicitly constrain the network to pay more attention to the bone boundary, leading to more accurate segmentation.
The proposed method is evaluated on a public dataset of pelvic CT scans with hip fractures. Experimental results demonstrate that the method outperforms conventional segmentation approaches, achieving an average Dice similarity coefficient of 93.36%, average symmetric surface distance of 0.85mm, and symmetric 95% Hausdorff distance of 7.51mm. The authors' code is publicly available.
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by Yu Zhou,Xiah... um arxiv.org 05-03-2024
https://arxiv.org/pdf/2405.01204.pdfTiefere Fragen