基于聚类的双回波超短回波时间图像分割用于PET/MR骨定位

Cluster-based segmentation of dual-echo ultra-short echo time images for PET/MR bone localization.

作者信息

Delso Gaspar, Zeimpekis Konstantinos, Carl Michael, Wiesinger Florian, Hüllner Martin, Veit-Haibach Patrick

机构信息

GE Healthcare, Waukesha, WI, 53186, USA.

Department Medical Radiology, Division of Nuclear Medicine, University Hospital Zurich, Rämistrasse 100, Zurich, 8091, Switzerland.

出版信息

EJNMMI Phys. 2014 Dec;1(1):7. doi: 10.1186/2197-7364-1-7. Epub 2014 Jun 4.

DOI:10.1186/2197-7364-1-7

PMID:26501449

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4545841/

Abstract

BACKGROUND

Magnetic resonance (MR)-based attenuation correction is a critical component of integrated positron emission tomography (PET)/MR scanners. It is generally achieved by segmenting MR images into tissue classes with known attenuation properties (e.g., bone, fat, soft tissue, lung, air). Ultra-short echo time (UTE) have been proposed in the past to locate bone tissue. In this study, tri-modality computed tomography data was used to develop an improved algorithm for the localization of bone in the head and neck.

METHODS

Twenty patients were scanned using a tri-modality setup. A UTE acquisition with 22-cm transaxial and 24-cm axial field of view was acquired, with a resolution of 1.5 × 1.5 × 2.0 mm(3). The sequence consisted of two echoes (30 μs, 1.7 ms) with a flip angle of 10° and 125-kHz bandwidth. The CT images of all patients were classified by thresholding and used to compute maps of the posterior probability of each tissue class, given a pair of UTE echo values. The Jaccard distance was used to compare with CT the bone masks obtained when using this information to segment the UTE datasets.

RESULTS

The results show the desired bony structures as a cluster pattern in the space of dual-echo measurements. The clusters obtained for the tissue classes are strongly overlapped, indicating that the MR data will not, regardless of the chosen space partition, be able to completely differentiate the bony and soft structures. The classification obtained by maximizing the posterior probability compared well to previously published methods, providing a more intuitive and robust choice of the final classification threshold. The distance between MR- and CT-based bone masks was 59% on average (0% being a perfect match), compared to 76% and 69% for two previously published methods.

CONCLUSIONS

The study of tri-modality datasets shows that improved bone tissue classification can be achieved by estimating maps of the posterior probability of voxels belonging to a particular tissue class, given a measured pair of UTE echoes.

摘要

背景

基于磁共振（MR）的衰减校正是集成正电子发射断层扫描（PET）/MR扫描仪的关键组成部分。它通常通过将MR图像分割为具有已知衰减特性的组织类别（例如，骨骼、脂肪、软组织、肺、空气）来实现。过去曾提出使用超短回波时间（UTE）来定位骨组织。在本研究中，使用三模态计算机断层扫描数据开发了一种改进的算法，用于定位头颈部的骨骼。

方法

使用三模态设置对20名患者进行扫描。采集了具有22 cm横向和24 cm轴向视野的UTE图像，分辨率为1.5×1.5×2.0 mm³。该序列由两个回波（30 μs，1.7 ms）组成，翻转角为10°，带宽为125 kHz。通过阈值化对所有患者的CT图像进行分类，并用于计算给定一对UTE回波值时每个组织类别的后验概率图。使用杰卡德距离将使用此信息分割UTE数据集时获得的骨掩码与CT进行比较。

结果

结果显示在双回波测量空间中，所需的骨结构呈现为聚类模式。为组织类别获得的聚类有很强的重叠，这表明无论选择何种空间划分，MR数据都无法完全区分骨结构和软组织。通过最大化后验概率获得的分类与先前发表的方法相比效果良好，为最终分类阈值提供了更直观、更稳健的选择。基于MR的骨掩码与基于CT的骨掩码之间的平均距离为59%（0%表示完美匹配），而之前发表的两种方法分别为76%和69%。

结论

对三模态数据集的研究表明，通过估计给定一对测量的UTE回波时属于特定组织类别的体素的后验概率图，可以实现改进的骨组织分类。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/484b/4545841/9aed11eedda6/40658_2014_6_Fig1_HTML.jpg

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基于聚类的双回波超短回波时间图像分割用于PET/MR骨定位

Cluster-based segmentation of dual-echo ultra-short echo time images for PET/MR bone localization.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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