摘要
用4%水合氯醛麻醉大鼠,在下丘脑室旁核(PVN)、中缝大核(NRM)埋藏双极刺激电极或不锈钢管,以便刺激、电解损毁或微电泳兴奋剂或激动剂。并暴露脊髓背角,利用玻璃微电极记录脊髓背角神经元对伤害刺激坐骨神经的反应,信号经计算机处理。实验结果表明:电刺激PVN可抑制脊髓背角神经元伤害反应,其作用时间持续15~25min,刺激PVN后3min抑制作用最强(P<0.01)。电解损毁NRM后,刺激PVN抑制脊髓背角神经元伤害反应仍然存在,并符合PVN抑制伤害反应的林点,实验结果提示:PVN参与脊髓背角神经元伤害反应的调制过程,其作用可通过内源性镇痛系统(PAG-NRM)途径,但也可通过PVN-脊髓背角间的直接神经投射途径。
Experiments were performed on rats anesthetized with 4% chloral hydrate. Dipolar stimulating electrodes or stainless steel pipettes were buried in hypothalamic paraventricularis nuclei(PVN) and nucleus raphe magnus(NRM) to present stimulation, dysfunction or electrophoresis of excitants or agonists, while glass microelectrodes were used to record the response of the dorsal horn neuron of spinal cord to nociceptive stimulation of the sciatic nerve. The data were sampled and processed by a computer. The result showed electric stimulation of PVN could inhibit the nociceptive response of the spinal cord dorsal horn neurons. The effect lasted 20 minutes,the peak being at 3 min after the stimulation(P<0. 001). After damaging NRM electrolytically stimulation of PVN could also inhibit the nociceptive response of dorsal horn neurons, which was in line with the characteristic of inhibitory effect of PVN on nociceptive response. The result indicates PVN may participate in the modulation of nociceptive response of spinal cord dorsal horn neurons,and it plays its role not only via the pathway of intrinsic analgesic system(PAG-NRM), but by way of its direct fiber projection to spinal cord dorsal horn as well.
出处
《滨州医学院学报》
1996年第2期105-108,共4页
Journal of Binzhou Medical University
关键词
下丘脑室旁核
痛觉调制
中缝大核
刺激电极
nucleus paraventriculars(PVN)
dorsal horn neuron
spinal cord
pain modulation
nucleus raphe magnus(nrm)
