Chung J M, Lee K H, Kim J, Coggeshall R E
J Neurophysiol. 1985 Aug;54(2):261-72. doi: 10.1152/jn.1985.54.2.261.
Responses of dorsal horn cells to ventral root stimulation were determined for the L7 and S1 levels of the spinal cord of 14 anesthetized cats. Forty-six dorsal horn cells were found that were excited by stimulation of the distal stump of the cut ventral root. For maximum excitation it was necessary to use a train of stimuli. For the 34 dorsal horn cells whose peripheral receptive-field properties could be characterized, 14 were wide dynamic range cells and 19 were high-threshold cells. The other cell responded exclusively to stimulation of deep tissue. None of the cells responded exclusively to innocuous stimuli, and all responded more vigorously to noxious than to innocuous stimuli. Some cells also responded to noxious heat applied to the skin of the receptive field. Locations of 10 of the activated dorsal horn cells were identified. They were distributed throughout the dorsal horn, but most were found in laminae V and VI. In four animals, both the proximal and distal stumps of the cut S1 ventral root were stimulated while searching for dorsal horn cells. Ten dorsal horn cells were found that were excited by stimulation of the distal stump of the ventral root. No cells were found that responded to proximal stump stimulation. To prevent current spread by stimulation of the ventral root, an extra ground electrode was placed distal to the stimulating electrodes. When the ground electrode was removed, distinctive signs of current spread appeared in that a cord dorsum potential could be recorded and the dorsal horn neuronal responses changed. Dorsal horn neurons could also be excited by nonelectrical stimuli such as crushing the ventral root. If the ventral root was crushed distal to the stimulating electrodes, however, the initially excited cell could no longer be activated by ventral root stimulation. Activation of dorsal horn cells by stimulation of the distal stump of a cut ventral root was abolished when the dorsal root of the same segment was sectioned. Conduction velocities of the fibers in the ventral root that excited dorsal horn cells ranged between 0.25 and 1.78 m/s with a mean of 0.91 +/- 0.47 (SD) m/s. These results show that there are unmyelinated afferent fibers in the ventral root that enter the spinal cord through the dorsal root and excite dorsal horn cells.(ABSTRACT TRUNCATED AT 400 WORDS)
在14只麻醉猫的脊髓L7和S1水平,测定了背角细胞对腹根刺激的反应。发现有46个背角细胞可被切断的腹根远侧断端的刺激所兴奋。为了达到最大兴奋,有必要使用一串刺激。对于34个其外周感受野特性可被表征的背角细胞,14个是广动力范围细胞,19个是高阈值细胞。另一个细胞仅对深部组织的刺激有反应。没有细胞仅对无害刺激有反应,并且所有细胞对有害刺激的反应比对无害刺激更强烈。一些细胞也对施加于感受野皮肤的有害热刺激有反应。确定了10个被激活的背角细胞的位置。它们分布于整个背角,但大多数见于V层和VI层。在4只动物中,在寻找背角细胞时,对切断的S1腹根的近侧和远侧断端都进行了刺激。发现有10个背角细胞可被腹根远侧断端的刺激所兴奋。未发现对近侧断端刺激有反应的细胞。为了防止因腹根刺激而导致电流扩散,在刺激电极的远侧放置了一个额外的接地电极。当移除接地电极时,出现了电流扩散的明显迹象,即可以记录到脊髓背电位,并且背角神经元反应发生改变。背角神经元也可被非电刺激如挤压腹根所兴奋。然而,如果在刺激电极的远侧挤压腹根,最初被兴奋的细胞就不再能被腹根刺激所激活。当切断同一节段的背根时,通过刺激切断的腹根远侧断端对背角细胞的激活就被消除。兴奋背角细胞的腹根纤维的传导速度在0.25至1.78 m/s之间,平均为0.91±0.47(标准差)m/s。这些结果表明,腹根中有无髓传入纤维,它们通过背根进入脊髓并兴奋背角细胞。(摘要截断于400字)
