利用局部对比度引导的注意力进行形状感知三维小血管分割

Zhiwei Deng, Songnan Xu, Jianwei Zhang, Jiong Zhang, Danny J Wang, Lirong Yan, Yonggang Shi
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引用次数: 0

摘要

从体内成像数据中自动分割和分析小血管是许多临床应用的一项重要任务。虽然目前的过滤和学习方法在大血管的分割方面取得了良好的效果,但由于小血管的几何形状明显不规则,而且现有成像技术的分辨率相对有限,对比度较弱,因此这些方法在小血管检测方面并不理想。此外,对于监督学习方法而言,在这些小血管区域获取准确的像素注释严重依赖于熟练的专家。在这项工作中,我们提出了一种新型自监督网络来应对这些挑战,并改进从三维成像数据中检测小血管的工作。首先,我们的网络最大限度地利用了一种新型的基于形状感知通量的测量方法,以增强对非圆形和不规则外观的小血管的估计。然后,我们开发了新颖的局部对比度引导注意(LCA)和增强(LCE)模块,以提高低对比度血管区域的血管度响应。在实验中,我们在多个三维数据集上与四种基于滤波的方法和一种最先进的自监督深度学习方法进行了比较,证明我们的方法在所有数据集上都取得了显著的改进。我们还进行了进一步的分析和消融研究,以评估各种模块对三维小血管分割性能提高的贡献。我们的代码见 https://github.com/dengchihwei/LCNetVesselSeg。
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Shape-Aware 3D Small Vessel Segmentation with Local Contrast Guided Attention.

The automated segmentation and analysis of small vessels from in vivo imaging data is an important task for many clinical applications. While current filtering and learning methods have achieved good performance on the segmentation of large vessels, they are sub-optimal for small vessel detection due to their apparent geometric irregularity and weak contrast given the relatively limited resolution of existing imaging techniques. In addition, for supervised learning approaches, the acquisition of accurate pixel-wise annotations in these small vascular regions heavily relies on skilled experts. In this work, we propose a novel self-supervised network to tackle these challenges and improve the detection of small vessels from 3D imaging data. First, our network maximizes a novel shape-aware flux-based measure to enhance the estimation of small vasculature with non-circular and irregular appearances. Then, we develop novel local contrast guided attention(LCA) and enhancement(LCE) modules to boost the vesselness responses of vascular regions of low contrast. In our experiments, we compare with four filtering-based methods and a state-of-the-art self-supervised deep learning method in multiple 3D datasets to demonstrate that our method achieves significant improvement in all datasets. Further analysis and ablation studies have also been performed to assess the contributions of various modules to the improved performance in 3D small vessel segmentation. Our code is available at https://github.com/dengchihwei/LCNetVesselSeg.

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