正常和损伤小鼠脑的振荡梯度扩散峰度成像

Oscillating gradient diffusion kurtosis imaging of normal and injured mouse brains.

作者信息

Wu Dan, Li Qiang, Northington Frances J, Zhang Jiangyang

机构信息

Department of Radiology, Johns Hopkins University School of Medicine, Baltimore, USA.

Key Laboratory for Biomedical Engineering of Ministry of Education, College of Biomedical Engineering and Instrument Science, Zhejiang University, Hangzhou, China.

出版信息

NMR Biomed. 2018 Jun;31(6):e3917. doi: 10.1002/nbm.3917. Epub 2018 Mar 30.

DOI:10.1002/nbm.3917

PMID:29601111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5980785/

Abstract

Recent advances in diffusion MRI employ multiple diffusion encoding schemes with varying diffusion direction, weighting, and diffusion time to investigate specific microstructural properties in biological tissues. In this study, we examined time-dependent diffusion kurtosis contrast in adult mouse brains and in neonatal mouse brains after hypoxic-ischemic (HI) injury. In vivo diffusion kurtosis maps were acquired with a short diffusion time using an oscillating gradient spin echo (OGSE) sequence at 100 Hz and with a relatively long diffusion time (20 ms) using a pulsed gradient spin echo (PGSE) sequence. In the adult mouse brain, we found that the cortex and hippocampus showed larger differences between OGSE kurtosis and PGSE kurtosis than major white matter tracts. In neonatal mouse brains with unilateral HI injury, the OGSE kurtosis map overall provided stronger edema contrast than the PGSE kurtosis map, and the differences between OGSE and PGSE kurtosis measurements in the edema region reflected heterogeneity of injury. This is the first in vivo study that has demonstrated multi-direction OGSE kurtosis contrasts in the mouse brain. Comparing PGSE and OGSE kurtosis measures may provide additional information on microstructural changes after ischemic stroke.

摘要

扩散磁共振成像的最新进展采用了多种扩散编码方案，这些方案具有不同的扩散方向、权重和扩散时间，以研究生物组织中的特定微观结构特性。在本研究中，我们检测了成年小鼠大脑和缺氧缺血（HI）损伤后新生小鼠大脑中随时间变化的扩散峰度对比。使用振荡梯度自旋回波（OGSE）序列在100Hz的短扩散时间以及使用脉冲梯度自旋回波（PGSE）序列在相对较长的扩散时间（20ms）下采集体内扩散峰度图。在成年小鼠大脑中，我们发现皮层和海马体在OGSE峰度和PGSE峰度之间的差异比主要白质束更大。在单侧HI损伤的新生小鼠大脑中，OGSE峰度图总体上比PGSE峰度图提供了更强的水肿对比，并且水肿区域中OGSE和PGSE峰度测量值之间的差异反映了损伤的异质性。这是第一项在小鼠大脑中证明多方向OGSE峰度对比的体内研究。比较PGSE和OGSE峰度测量值可能会提供有关缺血性中风后微观结构变化的额外信息。

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