[大鼠分级损伤后视神经纤维的再生]

[Regeneration of optic nerve fibers following graded injuries in rats].

作者信息

Huang Hou-bin, Ma Zhi-zhong, Zhang Mao-nian

机构信息

Department of Ophthalmology, General Hospital of PLA, Eye Center of PLA, Beijing 100853, China.

出版信息

Zhonghua Yan Ke Za Zhi. 2006 Mar;42(3):251-5.

PMID:16643759

Abstract

OBJECTIVE

To investigate the changes of retinal ganglion cell (RGC) and their axons, and nerve regeneration ability following graded optic nerve injury (ONI) in rats.

METHODS

A pair of cross-action forceps with 148.0 g clipping pressure was used to clip rat optic nerves for 3, 6, 12, 30 and 60 s to induce graded ONI animal model. The RGC was counted at 0.5, 1, 2, 3 and 7 months and the axons were observed 1, 2 and 3 months post-injury. The regeneration process was observed by transmission electron microscopy. The number of optic nerve fibers in transverse sections was calculated in silver-stained longitudinal sections, and a regeneration index (RI) was calculated based on these numbers. The RI, reflecting the regeneration ability of injured optic nerves, was calculated as follows: (number of nerve fibers 0.5 mm behind injury site-number of nerve fibers 2.5 mm behind injury site)/(number of nerve fibers 0.5 mm retrobulbarly-number of nerve fibers 2.5 mm behind injury site).

RESULTS

RGC and axons lost continuously after partial ONI. The loss of RGC was fitted with exponential pattern consisted of two phases, acute losing phase within first two weeks post injury and followed by another phase characterized by slowly reducing of RGC. The loss ratio of RGC increased and the survival ratio decreased with the severity of injury intensity. The loss of RGC and axons was aggregated in severe injury and showed a self-limited trend in mild injury. A large amount of clustered, zonal unmyelinated regeneration fibers were present after injury. The RI was 1.409, 1.490, 0.916, 1.119 and 1.224 following 3, 6, 12, 30 and 60 s clipping injury (chi2 = 281.2, P < 0.01), respectively. Different RI was associated to different injury intensity, with a greater regeneration ability in mild injury.

CONCLUSIONS

The secondary reaction and regeneration ability vary with graded intensity of optic nerve injury. A self-limited secondary reaction and a more powerful regeneration ability are associated with a mild injury. The repair behavior and the injury may reach a balance and result in a successful regeneration after a certain degree of injury.

摘要

目的

研究大鼠视神经分级损伤（ONI）后视网膜神经节细胞（RGC）及其轴突的变化以及神经再生能力。

方法

使用一对夹力为148.0 g的交叉镊子夹闭大鼠视神经3、6、12、30和60秒，以建立分级ONI动物模型。在损伤后0.5、1、2、3和7个月对RGC进行计数，并在损伤后1、2和3个月观察轴突。通过透射电子显微镜观察再生过程。在银染纵切面上计算横切面上视神经纤维的数量，并根据这些数量计算再生指数（RI）。反映损伤视神经再生能力的RI计算如下：（损伤部位后0.5 mm处神经纤维数量 - 损伤部位后2.5 mm处神经纤维数量）/（球后0.5 mm处神经纤维数量 - 损伤部位后2.5 mm处神经纤维数量）。

结果

部分ONI后RGC和轴突持续丢失。RGC的丢失符合指数模式，包括两个阶段，损伤后前两周为急性丢失期，随后是RGC缓慢减少的阶段。RGC的丢失率随损伤强度的增加而增加，存活率随损伤强度的增加而降低。RGC和轴突的丢失在重度损伤中聚集，在轻度损伤中呈自限性趋势。损伤后出现大量成簇的、带状无髓鞘再生纤维。3、6、12、30和60秒夹闭损伤后的RI分别为1.409、1.490、0.916、1.119和1.224（χ2 = 281.2，P < 0.01）。不同的RI与不同的损伤强度相关，轻度损伤的再生能力更强。