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纵向扩散张量和锰增强 MRI 检测缺氧缺血后和高氧后大脑灰质和白质的迟发性损伤。

Longitudinal diffusion tensor and manganese-enhanced MRI detect delayed cerebral gray and white matter injury after hypoxia-ischemia and hyperoxia.

机构信息

Department of Laboratory Medicine, Children's and Women's Health, Norwegian University of Science and Technology (NTNU), Trondheim, Norway.

出版信息

Pediatr Res. 2013 Feb;73(2):171-9. doi: 10.1038/pr.2012.170. Epub 2012 Nov 22.

DOI:10.1038/pr.2012.170
PMID:23174702
Abstract

BACKGROUND

Hypoxia-ischemia (HI) induces delayed inflammation and long-term gray and white matter brain injury that may be altered by hyperoxia.

METHODS

HI and 2 h of hyperoxia (100% O2) or room air (21% O2) in 7-d-old (P7) rats were studied by magnetic resonance imaging at 7 Tesla during 42 d: apparent diffusion coefficient (ADC) maps on day 1; T(1)-weighted manganese-enhanced images on day 7; diffusion tensor images on days 21 and 42; and T2 maps at all time points.

RESULTS

The long-term brain tissue destruction on T2 maps was more severe in HI+hyperoxia than HI+room air. ADC was lower in HI+hyperoxia vs. HI+room air and sham and was correlated with long-term outcome. Manganese enhancement indicating inflammation was seen in both the groups along with more microglial activation in HI+hyperoxia on day 7. Fractional anisotropy (FA) in corpus callosum was lower and radial diffusivity was higher in HI+hyperoxia than that in HI+room air and sham on day 21. From day 21 to day 42, FA and radial diffusivity in HI+hyperoxia were unchanged, whereas in HI+room air, FA increased and radial diffusivity decreased to values similar to sham.

CONCLUSION

Hyperoxia caused a more severe tissue destruction, delayed irreversible white matter injury, and increased inflammatory response resulting in a worsening in the trajectory of injury after HI in developing gray and white matter.

摘要

背景

缺氧缺血(HI)可引发延迟性炎症和长期的灰质和白质脑损伤,而高氧可能会改变这种损伤。

方法

本研究在 7 日龄(P7)大鼠中进行了 HI 合并 2 小时高氧(100% O2)或常氧(21% O2)处理,并在 7 特斯拉场强下于 42 天内进行了磁共振成像研究:第 1 天进行表观扩散系数(ADC)图;第 7 天进行 T1 加权锰增强图像;第 21 天和第 42 天进行弥散张量成像;所有时间点进行 T2 图。

结果

T2 图上 HI+高氧组的长期脑组织破坏比 HI+常氧组更严重。与 HI+常氧组和假手术组相比,HI+高氧组的 ADC 更低,与长期预后相关。两组均可见炎症导致的锰增强,HI+高氧组在第 7 天还可见更多的小胶质细胞激活。与 HI+常氧组和假手术组相比,HI+高氧组的胼胝体部分各向异性分数(FA)更低,径向弥散度更高,第 21 天。从第 21 天到第 42 天,HI+高氧组的 FA 和径向弥散度无变化,而 HI+常氧组的 FA 增加,径向弥散度降低至与假手术组相似的水平。

结论

高氧导致更严重的组织破坏、延迟性不可逆的白质损伤和炎症反应增加,从而使 HI 后发育中的灰质和白质损伤轨迹恶化。

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