二维x线血管造影中闭塞地标检测的级联注意机

Liheng Zhang, V. Singh, Guo-Jun Qi, Terrence Chen
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引用次数: 3

摘要

在心脏介入治疗中,在二维透视图像中定位导尿管尖端对于确定血管分支和校准狭窄血管非常重要。由于低剂量辐射以及其他设备的遮挡,在无对比度图像中检测导尿管尖端并非易事,而在充满对比度的图像中则更具挑战性。由于在x线成像中可见造影剂填充的血管,导尿管尖端的地标通常会被造影剂完全阻塞。即使是人眼也很难从单个血管造影图像中精确定位导管尖端。在注射造影剂前,医生必须依靠信息来定位被造影剂堵塞的导尿管尖端。遮挡发生时的自动地标检测非常重要,可以显著简化干预工作流程。为了解决这个问题,我们提出了一个新的级联注意机(CAM)模型。它借鉴了人类专家如何定位导管尖端的思想,首先在没有发生闭塞的情况下进行地标检测,然后利用这些信息作为先验知识来辅助闭塞检测。从非遮挡检测中计算注意图,进一步细化遮挡检测的热图,指导聚焦相关区域的推理。与最先进的基线相比,x射线血管造影实验证明了有希望的性能。结果表明,该方法能够捕捉到有遮挡和无遮挡情况之间的关系,实现对遮挡地标的精确检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cascade Attention Machine for Occluded Landmark Detection in 2D X-Ray Angiography
In cardiac interventions, localization of guiding catheter tip in 2D fluoroscopic images is important to specify ves-sel branches and calibrate vessels with stenosis. While detection of guiding catheter tip is not trivial in contrast-free images due to low dose radiation as well as occlusion by other devices, it is even more challenging in contrast-filled images. As contrast-filled vessels become visible in X-ray imaging, the landmark of guiding catheter tip can often be completely occluded by the contrast medium. It is difficult even for human eyes to precisely localize the catheter tip from a single angiography image. Physicians have to rely on information before the inject of contrast medium to localize the guiding catheter tip occluded by contrast medium. Automatic landmark detection when occlusion happens is important and can significantly simplify the intervention workflow. To address this problem, we propose a novel Cascade Attention Machine (CAM) model. It borrows the idea of how human experts localize the catheter tip by first per-forming landmark detection when occlusion does not hap-pen, then leveraging this information as prior knowledge to assist the occluded detection. Attention maps are computed from non-occluded detection to further refine the heatmaps for occluded detection to guide the inference focusing on related regions. Experiments on X-ray angiography demonstrate the promising performance compared with the state-of-the-art baselines. It shows that the CAM can capture the relation between situations with and without occlusion to achieve precise detection of occluded landmark.
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