持续脊髓压迫:第一部分:长期病理生理学的时间依赖效应

G. Carlson, C. Gorden, H. S. Oliff, J. Pillai, J. LaManna
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引用次数: 197

摘要

背景:本研究的目的是确定脊髓持续受压时间与脊髓损伤程度及减压后功能恢复能力之间是否存在关系。方法:对16只狗进行30分钟或180分钟的持续脊髓压迫。使用带有液压活塞的加载装置对绳索进行压缩。压力传感器连接在活塞表面,将脊髓界面的实时压力传输到数据采集系统。在伤后60分钟恢复期和28天监测体感诱发电位。在受伤后的26天内,通过使用一系列运动任务来判断功能性运动恢复。通过磁共振成像和组织学分析评估病变的体积和对组织的损害。结果:持续的脊髓压迫与界面压力逐渐下降有关。尽管如此,躯体感觉诱发电位的振幅持续下降,直到脊髓减压才恢复。减压后1小时内,减压30分钟组犬体感诱发电位恢复,而减压180分钟组无恢复。损伤30分钟组体感诱发电位恢复持续28天。运动测试显示30分钟组后肢运动功能迅速恢复,但180分钟组后肢运动功能明显受损。受伤后两周内,30分钟组的平衡、节奏、爬楼梯和走上斜面的能力明显好于180分钟组。压缩时间越长,病变体积越大,这与长期的功能结果相对应。结论:在脊髓持续受压的早期阶段,脊髓相对快速的粘弹性松弛表明存在与组织移位相关的继发性损伤机制。较长时间的位移允许继发性损伤过程的传播,导致体感诱发电位恢复不足,功能恢复有限,更广泛的组织损伤。临床意义:研究结果强调了及时减压对改善脊髓损伤后长期功能恢复的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sustained Spinal Cord Compression: Part I: Time-Dependent Effect on Long-Term Pathophysiology
Background: The objective of this study is to determine whether there is a relationship between the duration of sustained spinal cord compression and the extent of spinal cord injury and the capacity for functional recovery after decompression.Methods: Sixteen dogs underwent sustained spinal cord compression for thirty or 180 minutes. The cords were compressed with use of a loading device with a hydraulic piston. A pressure transducer was attached to the surface of the piston, which transmitted real-time spinal cord interface pressures to a data-acquisition system. Somatosensory evoked potentials were monitored during a sixty-minute recovery period as well as at twenty-eight days after the injury. Functional motor recovery was judged throughout a twenty-six-day period after the injury with use of a battery of motor tasks. The volume of the lesion and damage to the tissue were assessed with both magnetic resonance imaging and histological analysis.Results: Sustained spinal cord compression was associated with a gradual decline in interface pressure. Despite this, there was continuous decline in the amplitude of the somatosensory evoked potentials, which did not return until the cord was decompressed. Within one hour after the decompression, the dogs in the thirty-minute-compression group had recovery of somatosensory evoked potentials, but no animal had such recovery in the 180-minute group. Recovery of the somatosensory evoked potentials in the thirty-minute group was sustained over the twenty-eight days after the injury. Motor tests demonstrated rapid recovery of hindlimb motor function in the thirty-minute group, but there was considerable impairment in the 180-minute group. Within two weeks after the injury, balance, cadence, stair-climbing, and the ability to walk up an inclined plane were significantly better in the thirty-minute group than in the 180-minute group. The longer duration of compression produced lesions of significantly greater volume, which corresponded to the long-term functional outcome.Conclusions: The relatively rapid viscoelastic relaxation of the spinal cord during the early phase of sustained cord compression suggests that there are mechanisms of secondary injury that are linked to tissue displacement. Longer periods of displacement allow propagation of the secondary injury process, resulting in a lack of recovery of somatosensory evoked potentials, limited functional recovery, and more extensive tissue damage.Clinical Relevance: The findings underscore the importance of timely decompression to improve long-term functional recovery after spinal cord injury.
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