Sensitivity of multi-shell NODDI to multiple sclerosis white matter changes: a pilot study.

Q2 Medicine

Functional neurology Pub Date : 2017-04-01 DOI:10.11138/fneur/2017.32.2.097

Torben Schneider, W Brownlee, H Zhang, Olga Ciccarelli, David H Miller, Claudia Gandini Wheeler-Kingshott

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引用次数: 81

Abstract

Diffusion tensor imaging (DTI) is sensitive to white matter (WM) damage in multiple sclerosis (MS), not only in focal lesions but also in the normal-appearing WM (NAWM). However, DTI indices can also be affected by natural spatial variation in WM, as seen in crossing and dispersing white matter fibers. Neurite orientation dispersion and density imaging (NODDI) is an advanced diffusion-weighted imaging technique that provides distinct indices of fiber density and dispersion. We performed NODDI of lesion tissue and NAWM in five MS patients and five controls, comparing the technique with traditional DTI. Both DTI and NODDI identified tissue damage in NAWM and in lesions. NODDI was able to detect additional changes and it provided better contrast in MS-NAWM microstructure, because it distinguished orientation dispersion and fiber density better than DTI. We showed that NODDI is viable in MS patients and that it offers, compared with DTI parameters, improved sensitivity and possibly greater specificity to microstructure features such as neurite orientation.

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多壳NODDI对多发性硬化白质变化的敏感性:一项初步研究。

弥散张量成像(DTI)对多发性硬化症(MS)白质(WM)损伤非常敏感，不仅对局灶性病变如此，对外观正常的白质(NAWM)也很敏感。然而，DTI指数也会受到WM自然空间变化的影响，如白质纤维的交叉和分散。神经突定向弥散和密度成像(NODDI)是一种先进的弥散加权成像技术，可提供不同的纤维密度和弥散指标。我们对5名MS患者和5名对照组进行了病变组织的NODDI和NAWM，并与传统的DTI技术进行了比较。DTI和NODDI均可识别NAWM和病变的组织损伤。由于NODDI比DTI更好地区分了取向、色散和纤维密度，因此能够检测到MS-NAWM微观结构的附加变化，并提供了更好的对比。我们发现NODDI在MS患者中是可行的，并且与DTI参数相比，它提供了更高的灵敏度和可能更大的特异性，以表征神经突取向等微观结构特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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