用于体内定量髓磷脂的先进神经成像技术：在轻度创伤性脑损伤中的应用。

Advanced neuroimaging to quantify myelin in vivo: Application to mild TBI.

作者信息

Jurick S M, Bangen K J, Evangelista N D, Sanderson-Cimino M, Delano-Wood L, Jak A J

机构信息

a San Diego State University/University of California San Diego Joint Doctoral Program in Clinical Psychology , San Diego , CA , USA.

b Veterans Medical Research Foundation , San Diego , CA , USA.

出版信息

Brain Inj. 2016;30(12):1452-1457. doi: 10.1080/02699052.2016.1219064.

DOI:10.1080/02699052.2016.1219064

PMID:27834545

Abstract

BACKGROUND

Difficulty providing accurate diagnosis and prognosis, especially after mild forms of traumatic brain injury (TBI), has increased efforts to detect changes in white matter microstructure using advanced neuroimaging techniques. Although methods such as diffusion tensor imaging (DTI) have greatly increased knowledge of white matter changes resulting from TBI, several shortcomings limit the utility of these techniques particularly when applied to populations with mild TBI (mTBI) history. In vivo imaging of myelin may be particularly well suited to detect changes in white matter microstructure resulting from mTBI.

REVIEW

This manuscript will briefly review the animal and histological data supporting the important role of myelin following TBI, contributions and shortcomings of the use of diffusion tensor imaging (DTI) in mild TBI and the utility of multi-component relaxometry (MCR) techniques as a method for improved visualizing of white matter microstructural integrity in myelin.

CONCLUSION

The use of MCR-based techniques has potential as a clinical and research tool to assess and track changes in myelin as well as the common behavioural changes such as slowed processing speed following TBI.

摘要

背景

提供准确的诊断和预后存在困难，尤其是在轻度创伤性脑损伤（TBI）之后，这促使人们加大了使用先进神经成像技术来检测白质微观结构变化的力度。尽管诸如扩散张量成像（DTI）等方法极大地增加了我们对TBI导致的白质变化的了解，但仍存在一些缺点限制了这些技术的实用性，特别是在应用于有轻度TBI（mTBI）病史的人群时。髓磷脂的体内成像可能特别适合检测由mTBI导致的白质微观结构变化。

综述

本文将简要回顾支持髓磷脂在TBI后发挥重要作用的动物和组织学数据、扩散张量成像（DTI）在轻度TBI中的作用及缺点，以及多组分弛豫测量（MCR）技术作为一种改善髓磷脂中白质微观结构完整性可视化方法的实用性。

结论

基于MCR的技术有潜力作为一种临床和研究工具，用于评估和跟踪TBI后髓磷脂的变化以及常见的行为变化，如处理速度减慢。

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用于体内定量髓磷脂的先进神经成像技术：在轻度创伤性脑损伤中的应用。

Advanced neuroimaging to quantify myelin in vivo: Application to mild TBI.

作者信息

机构信息

出版信息

BACKGROUND

REVIEW

CONCLUSION

背景

综述

结论

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