Divani Afshin A, Murphy Amanda J, Meints Joyce, Sadeghi-Bazargani Homayoun, Nordberg Jessica, Monga Manoj, Low Walter C, Bhatia Prerana M, Beilman Greg J, SantaCruz Karen S
1 Department of Neurology, University of Minnesota , Minneapolis, Minnesota.
2 Department of Neurosurgery, University of Minnesota , Minneapolis, Minnesota.
J Neurotrauma. 2015 Jul 15;32(14):1109-16. doi: 10.1089/neu.2014.3686. Epub 2015 Apr 10.
Blast-induced traumatic brain injury (bTBI) is the "signature" injury of the recent Iraq and Afghanistan wars. Here, we present a novel method to induce bTBI using shock wave (SW) lithotripsy. Using a lithotripsy machine, Wistar rats (N = 70; 408.3 ± 93 g) received five SW pulses to the right side of the frontal cortex at 24 kV and a frequency of 60 Hz. Animals were then randomly divided into three study endpoints: 24 h (n = 25), 72 h (n = 19) and 168 h (n = 26). Neurological and behavioral assessments (Garcia's test, beam walking, Rotarod, and elevated plus maze) were performed at the baseline, and further assessments followed at 3, 6, 24, 72, and 168 h post-injury, if applicable. We performed digital subtraction angiography (DSA) to assess presence of cerebral vasospasm due to induced bTBI. Damage to brain tissue was assessed by an overall histological severity (OHS) score based on depth of injury, area of hemorrhage, and extent of axonal injury. Except for beam walking, OHS was significantly correlated with the other three outcome measures with at least one of their assessments during the first 6 h after the experiment. OHS manifested the highest absolute correlation coefficients with anxiety at the baseline and 6 h post-injury (r(baseline) = -0.75, r(6hrs) = 0.85; p<0.05). Median hemispheric differences for contrast peak values (obtained from DSA studies) for 24, 72, and 168 h endpoints were 3.45%, 3.05% and 0.2%, respectively, with statistically significant differences at 1 versus 7 d (p<0.05) and 3 versus 7 d (p<0.01). In this study, we successfully established a preclinical rat model of bTBI with characteristics similar to those observed in clinical cases. This new method may be useful for future investigations aimed at understanding bTBI pathophysiology.
爆炸所致创伤性脑损伤(bTBI)是近期伊拉克和阿富汗战争中的“典型”损伤。在此,我们介绍一种使用冲击波碎石术诱导bTBI的新方法。使用一台碎石机,对体重为408.3±93克的70只Wistar大鼠的右侧额叶皮质施加5次24千伏、频率为60赫兹的冲击波脉冲。然后将动物随机分为三个研究终点组:24小时(n = 25)、72小时(n = 19)和168小时(n = 26)。在基线时进行神经和行为评估(加西亚测试、横梁行走、转棒试验和高架十字迷宫试验),如果适用,在受伤后3、6、24、72和168小时进行进一步评估。我们进行数字减影血管造影(DSA)以评估诱导性bTBI所致脑血管痉挛的存在情况。基于损伤深度、出血面积和轴突损伤程度,通过总体组织学严重程度(OHS)评分评估脑组织损伤情况。除横梁行走试验外,OHS与其他三项结局指标在实验后前6小时内的至少一项评估中显著相关。OHS在基线和受伤后6小时与焦虑表现出最高的绝对相关系数(r(基线)=-0.75,r(6小时)=0.85;p<0.05)。24小时、72小时和168小时终点的造影剂峰值半球中位数差异分别为3.45%、3.05%和0.2%,在第1天与第7天(p<0.05)和第3天与第7天(p<0.01)有统计学显著差异。在本研究中,我们成功建立了一种具有与临床病例中观察到的特征相似的bTBI临床前大鼠模型。这种新方法可能对未来旨在了解bTBI病理生理学的研究有用。
