Magnetic resonance imaging and pathologic studies on lateral fluid percussion injury as a model of focal brain injury in rats.

L Qian, T Nagaoka, K Ohno, B Tominaga, T Nariai, K Hirakawa, T Kuroiwa, K Takakuda, H Miyairi
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Abstract

In this study, morphologic changes in brain lesions initiated by moderate lateral fluid percussion injury in rats were investigated chronologically using high-resolution magnetic resonance imaging (MRI) and histopathologic methods. Rats were subjected to moderate fluid percussion injury (average 2.80 +/- 0.48 atmospheres) over the exposed dura overlying the right parietal cortex. MRI obtained in vivo were compared with corresponding pathologic findings at 1, 6, and 24 h and at 3, 6, 14 and 80 days after injury. T2-weighted images showed scattered low-signal intensity in the injured cortex within a few hours after injury, whereas histologic findings revealed intraparenchymal hemorrhages. T2-weighted images of the ipsilateral cerebral cortex and/or corpus callosum showed a high-signal-intensity area 4 h after injury. The high-signal-intensity area became largest in size between 6 and 24 h, then declined gradually, and almost disappeared 14 days after injury. Histologic examination revealed pyknosis, retraction of the cell body of neurons with vacuolated neuropil in the corresponding regions 6 and 24 h after injury, and cystic necrosis 14 days after injury. The location and extent of these pathologic changes were depicted accurately by MRI in vivo. In the hippocampus, pyknosis and retraction of the cell body of pyramidal neurons were observed on the injured side 24 h after injury, and the number of neurons in the CA1 and CA2-CA3 regions decreased significantly on the same side by 14 days after injury. It is concluded that morphologic changes in the brain following experimental traumatic brain injury in rats are detectable in vivo by high-resolution MRI, and that MRI may be useful for the evaluation of treatment effects in experimental brain injury.

大鼠局灶性脑损伤模型的核磁共振成像及病理研究。
本研究采用高分辨率磁共振成像(MRI)和组织病理学方法,按时间顺序研究了中度外侧液体撞击损伤大鼠脑损伤的形态学变化。大鼠右侧顶叶皮层上暴露的硬脑膜受到中度液体冲击损伤(平均2.80 +/- 0.48大气压)。将伤后1、6、24 h和3、6、14、80 d的体内MRI与相应的病理结果进行比较。损伤后数小时内,t2加权图像显示损伤皮质内散在低信号强度,而组织学表现为实质内出血。同侧大脑皮层和/或胼胝体的t2加权图像在损伤后4小时显示高信号强度区域。损伤后6 ~ 24 h高信号强度区面积最大,随后逐渐减小,14 d后几乎消失。组织学检查显示损伤后6、24 h相应区域神经元胞体固缩、空泡化,损伤后14 d出现囊性坏死。这些病理改变的位置和程度可通过MRI在体内准确描述。海马损伤后24 h损伤侧锥体神经元细胞体固缩缩,损伤后14 d同侧CA1区和CA2-CA3区神经元数量明显减少。结果表明,高分辨率MRI可在体内检测到实验性创伤性脑损伤后大鼠脑的形态学变化,并可用于评价实验性脑损伤的治疗效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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