光诱导的三叉神经敏化而无中枢视觉通路:畏光的另一种机制。
Light-induced trigeminal sensitization without central visual pathways: another mechanism for photophobia.
机构信息
School of Medicine, Stony Brook University, Stony Brook, New York 11794-5230, USA.
出版信息
Invest Ophthalmol Vis Sci. 2011 Oct 4;52(11):7852-8. doi: 10.1167/iovs.11-7604.
PURPOSE
The authors investigated whether trigeminal sensitization occurs in response to bright light with the retina disconnected from the rest of the central nervous system by optic nerve section.
METHODS
In urethane-anesthetized rats, trigeminal reflex blinks were evoked with air puff stimuli directed at the cornea in darkness and at three different light intensities. After normative data were collected, the optic nerve was lesioned and the rats were retested. In an alert rat, reflex blinks were evoked by stimulation of the supraorbital branch of the trigeminal nerve in the dark and in the light.
RESULTS
A 9.1 × 10(3) μW/cm(2) and a 15.1 × 10(3) μW/cm(2) light significantly enhanced the magnitude of reflex blinks relative to blinks evoked by the same trigeminal stimulus when the rats were in the dark. In addition, rats exhibited a significant increase in spontaneous blinking in the light relative to the blink rate in darkness. After lesioning of the optic nerve, the 15.1 × 10(3) μW/cm(2) light still significantly increased the magnitude of trigeminal reflex blinks.
CONCLUSIONS
Bright lights increase trigeminal reflex blink amplitude and the rate of spontaneous blinking in rodents. Light can modify trigeminal activity without involving the central visual system.
目的
作者通过视神经切断术将视网膜与中枢神经系统的其余部分分离,研究亮光照是否会引起三叉神经敏化。
方法
在乌拉坦麻醉的大鼠中,在黑暗中和三种不同的光强度下,用空气喷刺激角膜来诱发三叉神经反射眨眼。在收集了标准数据后,切断视神经并对大鼠进行重新测试。在一只警觉的大鼠中,通过刺激眶上神经分支在黑暗中和光线下诱发反射眨眼。
结果
与大鼠在黑暗中受到相同三叉神经刺激引起的眨眼相比,9.1×10³μW/cm²和 15.1×10³μW/cm²的光显著增强了反射眨眼的幅度。此外,大鼠在光下的自发性眨眼频率明显高于在黑暗中的眨眼频率。视神经切断术后,15.1×10³μW/cm²的光仍然显著增加了三叉神经反射眨眼的幅度。
结论
亮光会增加啮齿动物三叉神经反射眨眼的幅度和自发性眨眼的频率。光可以在不涉及中枢视觉系统的情况下改变三叉神经活动。
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