1·Spinal dorsal horn;
脊髓后角;
2·GCS may depress the excitement of dorsal horn of spinal cord.
GCS可降低脊髓后角神经元的兴奋性。
3·A few labeled cells were found in the contralateral dorsal horn of spinal cord.
对侧脊髓后角出现少量标记细胞。
4·The hyperexcitability of spinal dorsal horn neurons is one of the main reasons for persistent pain.
脊髓背角神经元超兴奋性被认为是病理性疼痛发生的重要原因。
5·The NOS positive fibers were mainly in the superficial layers of the dorsal horn and intermedial region.
NOS阳性神经纤维主要分布在后角浅层和中间带。
6·The expressional change of CGRP in the dorsal horn of the spinal cord was detected by immunohistochemical method.
免疫组织化学法检测各组大鼠胸腰段、腰骶段脊髓背角内CGRP的表达变化。
7·Activities of spinal dorsal horn wide dynamic (WDR) neurons of L1 ~ L3 were recorded by extracellular microelectrode technique.
微电极细胞外记录L1 ~ L 3节段脊髓背角广动力型神经元活动。
8·It suggests that the dorsal horn of deafferented spinal cord may have some neurotrophic active effects of promoting neurite outgrowth.
提示去初级传入纤维的脊髓后角组织具有促进DRG神经突起生长的神经营养活性作用。
9·Conclusion: the expressional decrease of CGRP-IR in spinal dorsal horn may be involved in the ea treatment in chronic visceral pain rat.
结论:电针降低慢性内脏痛敏反应的镇痛机制与减少脊髓背角内CGRP样免疫阳性物质的表达有关。
10·The visual patch-clamp method can accurately assess synaptic transmission by measuring postsynaptic currents of the dorsal horn neurons.
可视膜片钳方法可以准确测量脊髓背角神经元的突触后电流从而研究初级传入突触的传递过程。