不完全性单侧脊髓挫伤后感觉和运动通路的电生理学评估。

Electrophysiological evaluation of sensory and motor pathways after incomplete unilateral spinal cord contusion.

机构信息

Departments of Biomedical Engineering, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.

出版信息

J Neurosurg Spine. 2012 Apr;16(4):414-23. doi: 10.3171/2012.1.SPINE11684. Epub 2012 Feb 3.

DOI:10.3171/2012.1.SPINE11684

PMID:22303873

Abstract

OBJECT

Unilateral contusions represent an increasingly popular model for studying the pathways and recovery mechanisms of spinal cord injury (SCI). Current studies rely heavily on motor behavior scoring and histological evidence to make assessments. Electrophysiology represents one way to reliably quantify the functionality of motor pathways. The authors sought to quantify the functional integrity of the bilateral motor and sensory pathways following unilateral SCI by using measurements of motor and somatosensory evoked potentials (MEPs and SSEPs, respectively).

METHODS

Eighteen rats were randomly divided into 3 groups receiving a mild unilateral contusion, a mild midline contusion, or a laminectomy only (control). Contusions were induced at T-8 using a MASCIS impactor. Electrophysiological analysis, motor behavior scoring, and histological quantifications were then performed to identify relationships among pathway conductivity, motor function, and tissue preservation.

RESULTS

Hindlimb MEPs ipsilateral to the injury showed recovery by Day 28 after injury and corresponded to approximately 61% of spared corticospinal tract (CST) tissue. In contrast, MEPs of the midline-injured group did not recover, and correspondingly > 90% of the CST tissue was damaged. Somatosensory evoked potentials showed only a moderate reduction in amplitude, with no difference in latency for the pathways ipsilateral to injury. Furthermore, these SSEPs were significantly better than those of the midline-injured rats for the same amount of white matter damage.

CONCLUSIONS

Motor evoked potential recovery corresponded to the amount of spared CST in unilateral and midline injuries, but motor behavior consistently recovered independent of MEPs. These data support the idea that spared contralateral pathways aid in reducing the functional deficits of injured ipsilateral pathways and further support the idea of CNS plasticity.

摘要

目的

单侧挫伤模型越来越多地用于研究脊髓损伤 (SCI) 的途径和恢复机制。目前的研究主要依赖于运动行为评分和组织学证据进行评估。电生理学是可靠地量化运动通路功能的一种方法。作者试图通过测量运动和体感诱发电位 (MEPs 和 SSEPs) 来量化单侧 SCI 后双侧运动和感觉通路的功能完整性。

方法

18 只大鼠随机分为 3 组，分别接受轻度单侧挫伤、轻度中线挫伤或单纯椎板切除术（对照组）。挫伤在 T-8 处使用 MASCIS 撞击器诱导。然后进行电生理分析、运动行为评分和组织学定量，以确定通路传导性、运动功能和组织保存之间的关系。

结果

损伤对侧后肢 MEPs 在损伤后 28 天恢复，与保留的皮质脊髓束 (CST) 组织约 61%相对应。相比之下，中线损伤组的 MEPs 没有恢复，相应的 CST 组织>90%受损。体感诱发电位的振幅仅略有降低，对侧损伤通路的潜伏期没有差异。此外，与中线损伤大鼠相比，这些 SSEPs 对相同程度的白质损伤具有显著改善。

结论

运动诱发电位的恢复与单侧和中线损伤中保留的 CST 数量相对应，但运动行为始终独立于 MEPs 恢复。这些数据支持了这样的观点，即保留的对侧通路有助于减少损伤侧通路的功能缺陷，并进一步支持中枢神经系统可塑性的观点。

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不完全性单侧脊髓挫伤后感觉和运动通路的电生理学评估。

Electrophysiological evaluation of sensory and motor pathways after incomplete unilateral spinal cord contusion.

机构信息

出版信息

OBJECT

METHODS

RESULTS

CONCLUSIONS

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结果

结论

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