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3T MRI 全脑显微镜鉴别颅神经解剖结构,第 1 部分:脑干。

3T MRI Whole-Brain Microscopy Discrimination of Subcortical Anatomy, Part 1: Brain Stem.

机构信息

From the Department of Radiology and Imaging Sciences (M.J.H.), Emory University, Atlanta, Georgia.

Departments of Radiology (M.T.B., N.C., T.M.S.).

出版信息

AJNR Am J Neuroradiol. 2019 Mar;40(3):401-407. doi: 10.3174/ajnr.A5956. Epub 2019 Jan 31.

DOI:10.3174/ajnr.A5956
PMID:30705073
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7028675/
Abstract

BACKGROUND AND PURPOSE

The brain stem is compactly organized with life-sustaining sensorimotor and autonomic structures that can be affected by numerous pathologies but can be difficult to resolve on conventional MR imaging.

MATERIALS AND METHODS

We applied an optimized TSE T2 sequence to washed postmortem brain samples to reveal exquisite and reproducible brain stem anatomic MR imaging contrast comparable with histologic atlases. This resource-efficient approach can be performed across multiple whole-brain samples with relatively short acquisition times (2 hours per imaging plane) using clinical 3T MR imaging systems.

RESULTS

We identified most brain stem structures at 7 canonical axial levels. Multiplanar or oblique planes illustrate the 3D course and spatial relationships of major brain stem white matter pathways. Measurements of the relative position, course, and cross-sectional area of these pathways across multiple samples allow estimation of pathway location in other samples or clinical subjects. Possible structure-function asymmetries in these pathways will require further study-that is, the cross-sectional area of the left corticospinal tract in the midpons appeared 20% larger ( = 13 brains, < .10).

CONCLUSIONS

Compared with traditional atlases, multiplanar MR imaging contrast has advantages for learning and retaining brain stem anatomy for clinicians and trainees. Direct TSE MR imaging sequence discrimination of brain stem anatomy can help validate other MR imaging contrasts, such as diffusion tractography, or serve as a structural template for extracting quantitative MR imaging data in future postmortem investigations.

摘要

背景与目的

脑干结构紧凑,包含维持生命的感觉运动和自主结构,这些结构可能受到多种疾病的影响,但在常规磁共振成像上难以解决。

材料与方法

我们应用优化的 TSE T2 序列对清洗后的尸检脑样本进行成像,以显示精细且可重复的脑干解剖磁共振成像对比,与组织学图谱相当。这种资源节约型方法可以在临床 3T 磁共振成像系统上使用相对较短的采集时间(每个成像平面 2 小时)对多个全脑样本进行。

结果

我们在 7 个标准轴位上识别出大多数脑干结构。多平面或斜平面显示了主要脑干白质通路的 3D 走行和空间关系。对多个样本中这些通路的相对位置、走行和横截面积的测量,允许估计其他样本或临床受试者中这些通路的位置。这些通路的结构-功能可能存在不对称性,需要进一步研究,即中脑桥的左侧皮质脊髓束的横截面积似乎大 20%(=13 个大脑,<0.10)。

结论

与传统图谱相比,多平面磁共振成像对比在学习和保留临床医生和受训者的脑干解剖方面具有优势。直接 TSE MR 成像序列对脑干解剖的区分有助于验证其他磁共振成像对比,如扩散张量成像,或作为未来尸检研究中提取定量磁共振成像数据的结构模板。

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