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通过时空神经网络对4D图像进行分割。

Segmentation of 4D images via space-time neural networks.

作者信息

Sun Changjian, Udupa Jayaram K, Tong Yubing, Sin Sanghun, Wagshul Mark, Torigian Drew A, Arens Raanan

机构信息

College of Electronic Science and Engineering, Jilin University, Changchun, China.

Medical Image Processing Group, 602 Goddard building, 3710 Hamilton Walk, Department of Radiology, University of Pennsylvania, Philadelphia, PA 19104, United States.

出版信息

Proc SPIE Int Soc Opt Eng. 2020 Feb;11317. doi: 10.1117/12.2549605. Epub 2020 Feb 28.

Abstract

Medical imaging techniques currently produce 4D images that portray the dynamic behaviors and phenomena associated with internal structures. The segmentation of 4D images poses challenges different from those arising in segmenting 3D static images due to different patterns of variation of object shape and appearance in the space and time dimensions. In this paper, different network models are designed to learn the pattern of slice-to-slice change in the space and time dimensions independently. The two models then allow a gamut of strategies to actually segment the 4D image, such as segmentation following just the space or time dimension only, or following first the space dimension for one time instance and then following all time instances, or vice versa, etc. This paper investigates these strategies in the context of the obstructive sleep apnea (OSA) application and presents a unified deep learning framework to segment 4D images. Because of the sparse tubular nature of the upper airway and the surrounding low-contrast structures, inadequate contrast resolution obtainable in the magnetic resonance (MR) images leaves many challenges for effective segmentation of the dynamic airway in 4D MR images. Given that these upper airway structures are sparse, a Dice coefficient (DC) of ~0.88 for their segmentation based on our preferred strategy is similar to a DC of >0.95 for large non-sparse objects like liver, lungs, etc., constituting excellent accuracy.

摘要

医学成像技术目前可生成描绘与内部结构相关的动态行为和现象的4D图像。由于物体形状和外观在空间和时间维度上的变化模式不同,4D图像的分割带来了与3D静态图像分割不同的挑战。在本文中,设计了不同的网络模型来独立学习空间和时间维度上切片间变化的模式。然后,这两种模型允许采用一系列策略来实际分割4D图像,例如仅沿空间或时间维度进行分割,或者先沿空间维度对一个时间实例进行分割,然后再对所有时间实例进行分割,反之亦然等。本文在阻塞性睡眠呼吸暂停(OSA)应用的背景下研究了这些策略,并提出了一个统一的深度学习框架来分割4D图像。由于上呼吸道的稀疏管状性质以及周围低对比度结构,磁共振(MR)图像中可获得的对比度分辨率不足,给4D MR图像中动态气道的有效分割带来了诸多挑战。鉴于这些上呼吸道结构稀疏,基于我们首选策略对其进行分割时约0.88的骰子系数(DC)类似于对肝脏、肺等大型非稀疏物体大于0.95的DC,构成了极高的准确性。

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本文引用的文献

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