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液体衰减反转恢复扩散张量磁共振纤维束成像:纤维追踪与传统成像的比较

FLAIR diffusion-tensor MR tractography: comparison of fiber tracking with conventional imaging.

作者信息

Chou Ming-Chung, Lin Yi-Ru, Huang Teng-Yi, Wang Chao-Ying, Chung Hsiao-Wen, Juan Chun-Jung, Chen Cheng-Yu

机构信息

Department of Electrical Engineering, National Taiwan University, Taipei, Taiwan, ROC.

出版信息

AJNR Am J Neuroradiol. 2005 Mar;26(3):591-7.

PMID:15760871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7976478/
Abstract

BACKGROUND AND PURPOSE

Partial volume with CSF is known to contaminate the quantification of white matter anisotropy depicted by diffusion tensor imaging (DTI). We hypothesized that the FLAIR technique helps to improve DTI white matter tractography in the normal adult brain by eliminating CSF partial volume effects.

METHODS

Seven healthy adults aged 23-37 underwent both conventional and FLAIR DTI at 1.5T. Each subject was imaged five times. Neural fiber tractography was performed with both sequences by using two algorithms: a voxel-based method (EZ-tracing) with global seed points and another based on subvoxel tractography (tensor deflection) by using manual encircling of local seed points. Total volume of the fibers tracked was compared for the two types of images.

RESULTS

Fiber tracking was substantially most successful on FLAIR DTI near the lateral ventricles and the sulci, where CSF partial volume effects were likely present. Minor false tracts on FLAIR images, possibly due to a reduced signal-to-noise ratio, were found in regions relatively free of CSF contamination; however, they did not affect tracking of major periventricular white matter bundles, such as those related to the corpus callosum or the corona radiata. When we excluded false tracts, the FLAIR technique depicted an average of 17% more fibers in volume than conventional DTI in the periventricular regions (P < .0005, paired Student t test).

CONCLUSION

Despite the reduction of signal-to-noise ratio and longer imaging times, FLAIR improved tractography by eliminating CSF partial volume effects.

摘要

背景与目的

脑脊液的部分容积已知会干扰扩散张量成像(DTI)所描绘的白质各向异性的定量分析。我们推测,液体衰减反转恢复(FLAIR)技术通过消除脑脊液部分容积效应,有助于改善正常成人大脑的DTI白质纤维束成像。

方法

7名年龄在23 - 37岁的健康成年人接受了1.5T的常规和FLAIR DTI检查。每位受试者成像5次。使用两种算法对两个序列进行神经纤维束成像:一种基于体素的方法(EZ追踪),采用全局种子点;另一种基于亚体素纤维束成像(张量偏转),通过手动环绕局部种子点。比较两种图像追踪到的纤维总体积。

结果

在侧脑室和脑沟附近,FLAIR DTI上的纤维追踪最为成功,这些部位可能存在脑脊液部分容积效应。在相对无脑脊液污染的区域,FLAIR图像上发现了少量假纤维束,可能是由于信噪比降低所致;然而,它们并未影响主要脑室周围白质束的追踪,如那些与胼胝体或放射冠相关的白质束。当我们排除假纤维束后,在脑室周围区域,FLAIR技术描绘的纤维体积平均比传统DTI多17%(P <.0005,配对学生t检验)。

结论

尽管信噪比降低且成像时间延长,但FLAIR通过消除脑脊液部分容积效应改善了纤维束成像。

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