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利用双波矢扩散加权成像在体绘制人类脑白质微观扩散各向异性图

Mapping measures of microscopic diffusion anisotropy in human brain white matter in vivo with double-wave-vector diffusion-weighted imaging.

作者信息

Lawrenz Marco, Finsterbusch Jürgen

机构信息

Department of Systems Neuroscience, University Medical Center Hamburg-Eppendorf, Hamburg, Germany; Neuroimage Nord, University Medical Centers Hamburg-Kiel-Lübeck, Germany.

出版信息

Magn Reson Med. 2015 Feb;73(2):773-83. doi: 10.1002/mrm.25140. Epub 2014 Jan 27.

DOI:10.1002/mrm.25140
PMID:24469974
Abstract

PURPOSE

To demonstrate that rotationally invariant measures of the diffusion anisotropy on a microscopic scale can be mapped in human brain white matter in vivo.

METHODS

Echo-planar imaging experiments (resolution 3.0 × 3.0 × 3.0 mm(3) ) involving two diffusion-weighting periods (δ = 22 ms, Δ = 25 ms) in the same acquisition, so-called double-wave-vector or double-pulsed-field-gradient diffusion-weighting experiments, were performed on a 3 T whole-body magnetic resonance system with a long mixing time ( τm=45 ms) between the two diffusion weightings.

RESULTS

The disturbing influences of background gradient fields, eddy currents, and the finite mixing time can be minimized using 84 direction combinations based on nine directions and their antipodes. In healthy volunteers, measures of the microscopic diffusion anisotropy ( IMA and MA indexes) could be mapped in white matter across the human brain. The measures were independent (i) of the absolute orientation of the head and of the diffusion directions and (ii) of the predominant fiber orientation. Compared to the fractional anisotropy derived from the conventional diffusion tensor, the double-wave-vector indexes exhibit a narrower distribution, which could reflect their independence of the fiber orientation distribution.

CONCLUSIONS

Mapping measures of the microscopic diffusion anisotropy in human brain white matter is feasible in vivo and could help to characterize tissue microstructure in the healthy and pathological brain.

摘要

目的

证明微观尺度上扩散各向异性的旋转不变量可在人脑白质中进行活体映射。

方法

在3T全身磁共振系统上进行回波平面成像实验(分辨率3.0×3.0×3.0mm³),在同一采集过程中包含两个扩散加权期(δ = 22ms,Δ = 25ms),即所谓的双波矢或双脉冲场梯度扩散加权实验,两个扩散加权之间有较长的混合时间(τm = 45ms)。

结果

基于九个方向及其反方向的84种方向组合可将背景梯度场、涡流和有限混合时间的干扰影响降至最低。在健康志愿者中,微观扩散各向异性的测量值(IMA和MA指数)可在全脑白质中进行映射。这些测量值(i)与头部的绝对取向和扩散方向无关,(ii)与主要纤维取向无关。与传统扩散张量得出的分数各向异性相比,双波矢指数的分布更窄,这可能反映了它们与纤维取向分布的无关性。

结论

在人脑白质中映射微观扩散各向异性的测量值在活体中是可行的,有助于表征健康和病变大脑中的组织微观结构。

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