体外大鼠脊髓压迫:乙醇对轴突传导恢复的影响。

S A Ridella, T E Anderson
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引用次数: 0

摘要

在离体大鼠脊髓制备中,研究了乙醇对脊髓压迫后神经传导恢复的影响。使用压电翻译器可控制压缩脐带横截面的50%至75%。压缩后复合动作电位(CAP)振幅、潜伏期和不应期相对于压缩前测量。将脊髓暴露于体外乙醇(100 mg/dl浴液浓度,在压缩前1小时开始)与维持在正常人工脑脊液中的脊髓的CAP恢复情况进行比较。研究了乙醇对正常饮食大鼠和急性实验前15天多次乙醇中毒大鼠脊髓的体外影响。脊髓受压导致CAP峰值幅度立即下降68%,潜伏期(171%)和不应期(256%)增加。在正常浸泡介质中,压缩后180分钟CAP振幅恢复到压缩前值的83%。在人工脑脊液中添加乙醇对CAP参数没有直接影响,但与压缩相结合,冲击后180分钟CAP振幅恢复到仅为压缩前值的42% (p < 0.01)。乙醇预处理动物的脐带急性乙醇暴露对恢复的影响较小。CAP振幅恢复到压缩前水平的83%,与压缩恢复没有差异(p小于0.10)。这些数据表明,乙醇对轴突膜的直接作用可能影响轴突对机械损伤的敏感性或其恢复正常功能的能力。由于反复接触的动物的脊髓对乙醇的急性效应不太敏感,乙醇可能起到了使轴突膜“流化”的作用。
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Compression of rat spinal cord in vitro: effects of ethanol on recovery of axonal conduction.

The effect of ethanol on recovery of neural conduction after spinal cord compression was evaluated in an isolated rat spinal cord preparation. Controlled compression of 50 to 75 percent of the cord cross-section was delivered using a piezoelectric translator. Postcompression compound action potential (CAP) amplitude, latency, and refractory periods were measured relative to pre-compression values. Recovery of CAP's was compared for spinal cords exposed to ethanol in vitro (100 mg/dl bath concentration, started one hour prior to compression) versus those maintained in normal artificial CSF. The in vitro effects of ethanol were evaluated on spinal cords from rats maintained on a normal diet and from those repeatedly intoxicated with ethanol for 15 days prior to the acute experiment. Compression of the cord resulted in an immediate 68% decrease in CAP peak amplitude and an increase in latency (171%) and refractory period (256%). In normal bathing medium, CAP amplitude recovered to 83% of pre-compression values 180 minutes after compression. The addition of ethanol to the artificial CSF did not directly affect CAP parameters, but combined with compression, CAP amplitude recovered to only 42% of pre-compression values 180 minutes after impact (p less than .01). Recovery was less affected by acute ethanol exposure in cords from ethanol pretreated animals. CAP amplitude recovered to 83% of pre-compression levels and was not different from compression-only recovery (p less than 0.10). The data suggest that direct effects of ethanol on axonal membranes may affect the sensitivity of axons to mechanical trauma or their capacity to recover normal function. Since spinal cords from repeatedly exposed animals are less sensitive to the acute effects of ethanol, ethanol may be acting to "fluidize" the axonal membrane.

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