基于atlas的多模态MRI图像头颈部器官全局和局部射频分割

Proceedings of the 10th International Symposium on Image and Signal Processing and Analysis Pub Date : 2017-09-01 DOI:10.1109/ISPA.2017.8073577

S. Urbán, A. Tanács

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引用次数: 7

摘要

由于患者器官形状和大小的巨大差异，头颈部器官分割是非常具有挑战性的。准确和一致的器官危险(OAR)区域分割是重要的放射治疗计划。本文提出了一种全自动的基于图谱和学习的方法，用于分割多模态头颈部MRI图像中的三个桨(气管，脊髓，腮腺)。该方法主要由三个部分组成。首先，生成概率图谱。然后，结合地图集和多模态图像的各种图像特征的随机森林分类器在全局和局部应用，以处理局部变化。该方法在30个多模态MRI检查中进行了训练和测试，包括T2w, T1w和T1w脂肪饱和图像。使用手动定义的轮廓作为参考。使用DICE相似度测量，所得结果与参考文献具有良好的相关性。基于这些初步结果，提出的方法可以适用于头颈部的其他器官。

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Atlas-based global and local RF segmentation of head and neck organs on multimodal MRI images

Organ segmentation in the head and neck region is very challenging due to the large variability of the shape and size of organs among patients. Accurate and consistent segmentation of the organ-at-risk (OAR) regions is important in radiation treatment planning. This paper presents a fully automated atlas- and learning-based method for segmenting three OARs (trachea, spinal cord, parotid glands) in multimodal head-and-neck MRI images. The proposed method consists of three main parts. First, a probabilistic atlas is generated. Then, a Random Forest classifier that incorporates the atlas as well as various image features of the multimodal images is applied globally and locally in order to handle local variations. The method was trained and tested on 30 multimodal MRI examinations including T2w, T1w and T1w fat saturated images. Manually defined contours were used as reference. The presented results show good correlation with the reference using DICE similarity measurements. Based on these preliminary results the proposed method can be adapted to other organs of the head-and-neck region.

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Proceedings of the 10th International Symposium on Image and Signal Processing and Analysis

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