大鼠视神经夹伤后视网膜病变及其F-VEP检测

目的观测大鼠视神经夹伤后视网膜病变及其对视功能时序性变化的影响。方法建立大鼠视神经夹伤模型,分别于伤后1、3、5、7、9、14、28、56、84d光镜观察视网膜病变,闪光视觉诱发电位(F-VEP)检测视功能状况。结果大鼠视神经损伤诱导视网膜神经节细胞(RGCs)较正常眼明显减少。损伤后3～7d RGCs减少率快速上升,14d 后缓慢下降,28d后几乎无明显变化。视神经损伤1d F-VEP波形变得低而宽;1-14d峰潜时和波幅呈进行性下降, 28d后变化平稳,并显示恢复迹象。结论神经损伤后节细胞继发性病变是视功能进行性下降的重要基础;并与视功能的时间规律变化具有相关性。

The morphological change of retina and detection of F-VEP after optic nerve crush in rat

Objective To observe the morphological change of retina and its affection on visual function after optic nerve crush in adult rat. Methods The models of optic nerve crush in rats were made. The change of retinas in different time (1,3 ,5 ,7,9,14,28,56,84d respectively) after injury were observed by light microscope, and the flash visual evoked potential (F-VEP) was recorded in normal and injured rats. Result The number of retinal ganglion cells (RGCs) was significantly reduced in the partial lesion of optic nerve crush compared with normal optic nerves without injury. The initial loss of RGCs was accelerated during 3-7days after nerve crush and then declined gradually by 14 days, and no change was observed after 28 days. The wave of F-VEP became lower and wider in one day after the crush, and the latency and amplitude of F-VEP declined gradually from one day to 14 days, and recovery response was observed by the time of 4 weeks after injury. Conclusion The secondary degeneration of RGCs following optic nerve crush is the important morphological foundation of fall of visual function, which have relativity with the regular decline of visual function.