使用横向弛豫和定量磁化率映射进行皮质下灰质分割和基于体素的分析及其在多发性硬化症中的应用。

Subcortical gray matter segmentation and voxel-based analysis using transverse relaxation and quantitative susceptibility mapping with application to multiple sclerosis.

作者信息

Cobzas Dana, Sun Hongfu, Walsh Andrew J, Lebel R Marc, Blevins Gregg, Wilman Alan H

机构信息

Biomedical Engineering, University of Alberta, Edmonton, Canada.

Computing Science, University of Alberta, Edmonton, Canada.

出版信息

J Magn Reson Imaging. 2015 Dec;42(6):1601-10. doi: 10.1002/jmri.24951. Epub 2015 May 18.

DOI:10.1002/jmri.24951

PMID:25980643

Abstract

PURPOSE

To investigate subcortical gray matter segmentation using transverse relaxation rate (R2 *) and quantitative susceptibility mapping (QSM) and apply it to voxel-based analysis in multiple sclerosis (MS).

MATERIALS AND METHODS

Voxel-based variation in R2 * and QSM within deep gray matter was examined and compared to standard whole-structure analysis using 37 MS subjects and 37 matched controls. Deep gray matter nuclei (caudate, putamen, globus pallidus, and thalamus) were automatically segmented and morphed onto a custom atlas based on QSM and standard T1 -weighted images. Segmentation accuracy and scan-rescan reliability were tested.

RESULTS

When considering only significant regions as returned by the multivariate voxel-based analysis, increased R2 * and QSM was found in MS subjects compared to controls in portions of all four nuclei studied (P < 0.002). For R2 *, regional analysis yielded at least 66-fold improved P-value significance in all nuclei over standard whole-structure analysis, while for QSM only thalamus benefited, with 5-fold improvement in significance. Improved segmentation over standard methods, particularly for globus pallidus (2.8 times higher Dice score), was achieved by incorporating high-contrast QSM into the atlas. Voxel-based reliability was highest for QSM (<1% variation).

CONCLUSION

Automatic segmentation of iron-rich deep gray matter can be improved by incorporating QSM. Voxel-based evaluation yielded increased R2 * and QSM in MS subjects in all four nuclei studied with R2 *, benefiting the most from localized analysis over whole-structure measures.

摘要

目的

利用横向弛豫率（R2*）和定量磁化率成像（QSM）研究皮质下灰质分割，并将其应用于多发性硬化症（MS）的基于体素的分析。

材料与方法

使用37例MS患者和37例匹配对照，检查并比较深部灰质中基于体素的R2*和QSM变化，并与标准全结构分析进行对比。基于QSM和标准T1加权图像，自动分割深部灰质核团（尾状核、壳核、苍白球和丘脑），并将其变形到定制图谱上。测试分割准确性和扫描-重扫可靠性。

结果

仅考虑多变量基于体素分析返回的显著区域时，在所有四个研究核团的部分区域中，与对照组相比，MS患者的R2和QSM升高（P < 0.002）。对于R2，区域分析在所有核团中产生的P值显著性比标准全结构分析至少提高了66倍，而对于QSM，只有丘脑受益，显著性提高了5倍。通过将高对比度QSM纳入图谱，相对于标准方法实现了更好的分割，特别是对于苍白球（Dice评分高2.8倍）。基于体素的可靠性对于QSM最高（变化<1%）。

结论

通过纳入QSM可改善富含铁的深部灰质的自动分割。基于体素的评估显示，在所有四个研究核团中，MS患者的R2和QSM升高，R2从局部分析中受益最大，优于全结构测量。

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使用横向弛豫和定量磁化率映射进行皮质下灰质分割和基于体素的分析及其在多发性硬化症中的应用。

Subcortical gray matter segmentation and voxel-based analysis using transverse relaxation and quantitative susceptibility mapping with application to multiple sclerosis.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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