Conductivity of dorsal column fibers during experimental spinal cord compression and after decompression at various stimulus frequencies.

K Sakatani, T Ohta, M Shimo-Oku
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引用次数: 9

Abstract

The effects of spinal cord compression on conduction of dorsal column fibers at various stimulus frequencies were analyzed in pentobarbital anesthetized cats. The responses to L6 dorsal root stimulation at 1 to 500 Hz were recorded from the L2 cord dorsum. The L4 cord segment was compressed gradually until the compound action potential (CAP) at 1 Hz was flat. There was no significant change of CAP at any frequency during the first part of compression, but there was progressive conduction failure, which was more severe with increased stimulus frequency, at a later stage. After decompression, the CAPs at all frequencies recovered progressively for 1 hour but slowly thereafter. However, marked differences were observed in recovery rate at different stimulus frequencies. The recovery rate at 500 Hz was much slower than that at 1 Hz, whereas the recovery rate at 100 Hz exceeded those at 1 Hz. Serial analysis of a train of high frequency impulses revealed the following different response patterns with stimulus frequencies after decompression. At 333-500 Hz the amplitude of CAPs decreased progressively, whereas at 33-125 Hz it increased up to 110-134% of the first CAP and then reached an almost steady level. At 200-250 Hz the amplitude increased transiently and then decreased progressively. The latency increased with decreased amplitude, and decreased with increased amplitude. Conduction failure at a high stimulus frequency (500 Hz) was observed at the compression site. In contrast, augmentation of CAPs at moderately high stimulus frequency (100 Hz) was observed rostral to the compressing site. The conduction failure at high stimulus frequency indicates incomplete impairment of spike generation in axons injured by mechanical compression and that these axons can transmit impulses at a low stimulus frequency. High frequency stimulation may be useful for monitoring of the function of the CNS axons. The mechanism underlying the augmentation of CAPs at moderately high stimulus frequency is briefly discussed.

不同刺激频率下脊髓受压和减压后背柱纤维的电导率。
研究了戊巴比妥麻醉猫在不同刺激频率下脊髓压迫对背柱纤维传导的影响。从L2脊髓背侧记录1 ~ 500 Hz刺激L6背根的反应。L4脊髓段逐渐受压,直至1hz复合动作电位(CAP)趋于平缓。在压迫的前半段,CAP在任何频率下均无明显变化,但在后期,随着刺激频率的增加,传导功能逐渐衰竭,且愈严重。减压后,各频率的CAPs在1小时内逐渐恢复,但此后恢复缓慢。然而,在不同的刺激频率下,恢复速率有显著差异。500hz的回收率远低于1hz,而100hz的回收率高于1hz。对一组高频脉冲进行序列分析,揭示了解压后不同刺激频率的响应模式。在333 ~ 500 Hz时,CAP的振幅逐渐下降,而在33 ~ 125 Hz时,CAP的振幅增加到第一次CAP的110 ~ 134%,然后达到几乎稳定的水平。在200 ~ 250 Hz时,振幅先瞬变增大后逐渐减小。潜伏期随振幅减小而增大,随振幅增大而减小。在高刺激频率(500 Hz)下,在压缩部位观察到传导失效。相比之下,在中等高的刺激频率(100 Hz)下,在压迫部位的吻侧观察到cap的增强。高刺激频率下的传导失败表明机械压缩损伤的轴突产生尖峰的功能不完全受损,这些轴突可以在低刺激频率下传递脉冲。高频刺激可能有助于监测中枢神经系统轴突的功能。简要讨论了中等高刺激频率下cap增强的机制。
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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