Trick L R
School of Optometry, University of Missouri-St. Louis 63121.
Doc Ophthalmol. 1987 Jan;65(1):35-43. doi: 10.1007/BF00162718.
Age-related visual deficits that occur in the absence of recognized visual disease are frequently observed. Many of the optical factors contributing to these deficits have been delineated, but the contributing neurophysiological alterations have not been clearly defined. This investigation examined age-related variations in the retinal and cortical processing of visual information. Pattern-specific retinal potentials (pattern electroretinogram or PERG in this series) and cortical potentials (VECPs) were recorded from nine young visual normals (20-30 years) and nine healthy elderly individuals (70-80 years). All subjects had best corrected visual acuity of 20/30 or better. Checkerboard patterns (7.5-60 min. checks) were modulated in a counterphase mode (2.0 and 7.5 rps). PERGs and VECPs were simultaneously recorded. Significant age-related alterations in waveform amplitude and latency were observed for both biopotentials. The VECP alterations were largely the result of the reduction in retinal illumination associated with senile miosis, but this factor could not account for most of the observed PERG alterations. These results suggest that neurophysiological changes in the retina may underlie some of the visual deficits observed in healthy elderly adults.
在没有公认的视觉疾病的情况下,与年龄相关的视觉缺陷经常被观察到。导致这些缺陷的许多光学因素已经被描述清楚,但相关的神经生理学改变尚未明确界定。本研究调查了视觉信息在视网膜和皮层处理过程中与年龄相关的变化。从9名年轻视力正常者(20 - 30岁)和9名健康老年人(70 - 80岁)记录了模式特异性视网膜电位(本系列中为图形视网膜电图或PERG)和皮层电位(VECP)。所有受试者的最佳矫正视力均为20/30或更好。棋盘格模式(7.5 - 60分钟方格)以反相模式(2.0和7.5次/秒)进行调制。同时记录PERG和VECP。两种生物电位均观察到与年龄相关的波形幅度和潜伏期的显著改变。VECP的改变主要是由于与老年性瞳孔缩小相关的视网膜光照减少,但该因素不能解释大多数观察到的PERG改变。这些结果表明,视网膜的神经生理学变化可能是健康老年人中观察到的一些视觉缺陷的基础。
