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在脊髓横断的大鼠中,氟烷麻醉可特异性抑制伤害性脊髓退缩反射,但不抑制脊髓背角广动力范围神经元的活动。

Nociceptive spinal withdrawal reflexes but not spinal dorsal horn wide-dynamic range neuron activities are specifically inhibited by halothane anaesthesia in spinalized rats.

作者信息

You Hao-Jun, Colpaert Francis C, Arendt-Nielsen Lars

机构信息

Center for Sensory-Motor Interaction (SMI), Laboratory for Experimental Pain Research, Aalborg University, Fredrik Bajers Vej 7 D-3, DK-9220 Aalborg, Denmark.

出版信息

Eur J Neurosci. 2005 Jul;22(2):354-60. doi: 10.1111/j.1460-9568.2005.04234.x.

DOI:10.1111/j.1460-9568.2005.04234.x
PMID:16045488
Abstract

The aim of the present study was to investigate the spinal cord effects and sites of action of different inhaled concentrations (0.5-2%) of the anaesthetic, halothane. Simultaneous recordings were made of 3 Hz, suprathreshold (1.5 x T) electrically evoked spinal dorsal horn (DH) wide-dynamic range (WDR) neuron responses and of single motor unit (SMU) electromyographic (EMG) responses underlying the spinal withdrawal reflex in spinalized Wistar rats. Compared with the baseline responses obtained with 0.5% halothane, the electrically evoked early responses of the DH WDR neurons as well as the SMUs were only depressed by the highest, 2% concentration of halothane. In contrast, 1.5% halothane markedly inhibited the late responses of the DH WDR neurons, whereas 1% halothane started to significantly depress the late responses of the SMUs. Likewise, wind-up of the WDR neuron late responses was inhibited by 1.5-2% halothane, whereas 1-2% halothane significantly depressed wind-up of the SMU EMG late responses. The inhibitory effects of 2% halothane on the early and the late responses of the DH WDR neurons, but not of the SMUs, were completely reversed by opioid micro-receptor antagonist naloxone (0.04 mg/kg). However, no significant effects of naloxone were found on different responses of the DH WDR neurons as well as the SMUs at 0.5-1% halothane, suggesting that different concentrations of halothane may modulate different spinal receptors. We conclude that halothane at high concentrations (1.5-2%) seems to play a predominant inhibitory role via spinal multireceptors on ventral horn (VH) motor neurons, and less on DH sensory WDR neurons, of the spinal cord.

摘要

本研究的目的是调查不同吸入浓度(0.5 - 2%)的麻醉药氟烷对脊髓的影响及其作用部位。对脊髓横断的Wistar大鼠,同时记录3Hz阈上(1.5×阈刺激)电诱发的脊髓背角(DH)广动力范围(WDR)神经元反应以及脊髓退缩反射中单个运动单位(SMU)的肌电图(EMG)反应。与0.5%氟烷获得的基线反应相比,只有最高浓度2%的氟烷能抑制DH WDR神经元以及SMU的电诱发早期反应。相反,1.5%氟烷显著抑制DH WDR神经元的晚期反应,而1%氟烷开始显著抑制SMU的晚期反应。同样,1.5 - 2%氟烷抑制WDR神经元晚期反应的后放电,而1 - 2%氟烷显著抑制SMU EMG晚期反应的后放电。2%氟烷对DH WDR神经元早期和晚期反应的抑制作用(但对SMU无此作用)可被阿片类微受体拮抗剂纳洛酮(0.04mg/kg)完全逆转。然而,在0.5 - 1%氟烷浓度下,未发现纳洛酮对DH WDR神经元以及SMU的不同反应有显著影响,这表明不同浓度的氟烷可能调节不同的脊髓受体。我们得出结论,高浓度(1.5 - 2%)的氟烷似乎通过脊髓多受体对脊髓腹角(VH)运动神经元起主要抑制作用,而对脊髓DH感觉WDR神经元的作用较小。

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