Link Barbara, Rühl Sylvia, Peters Andrea, Jünemann Anselm, Horn Folkert K
Department of Ophthalmology, Biometry and Epidemiology, University of Erlangen-Nürnberg, Erlangen, Germany.
Doc Ophthalmol. 2006 Jan;112(1):1-11. doi: 10.1007/s10633-005-5865-z.
Pattern stimulation is widely used to detect inner retinal dysfunction. In this work we describe a pattern stimulation technique with LEDs and compare the results with conventional methods.
PERG and VEP were derived from three normal subjects. Three different techniques were used to generate a checkerboard pattern reversal stimulus: a 70 Hz monitor, a Maxwellian-view system equipped with a Xenon-arc lamp and a mechanical mirror system, and a LED array (Roland Consult) consisting of 100 white LEDs. Two kinds of luminance (125 and 340 cd/m2) and four temporal frequencies (4, 8, 12 and 24 reversals per second) were studied on three healthy subjects. Additionally, a luminance tuning experiment (30, 60, 90, 125 and 340 cd/m2) was performed on one subject.
Comparison of different stimulation techniques shows reproducible responses of PERG and VEP with all three methods. The LED array leads to slightly smaller amplitudes than both other techniques, which we ascribe to the design of the LED field. No difference of peak times or phases was noticed between different stimulation techniques. A luminance dependency of PERG and VEP is noticeable using stimulation with LED: with decreasing luminance we measured increasing peak times of PERG and VEP and decreasing amplitude of PERG.
We conclude that central retinal stimulation with checkerboard pattern reversal is possible with LED. It gives comparable results to monitor and Maxwellian-view system.
图形刺激广泛用于检测视网膜内层功能障碍。在本研究中,我们描述了一种使用发光二极管(LED)的图形刺激技术,并将结果与传统方法进行比较。
从三名正常受试者获得图形视网膜电图(PERG)和视觉诱发电位(VEP)。使用三种不同技术产生棋盘格图形反转刺激:一台70Hz的显示器、配备氙弧灯和机械镜系统的麦克斯韦观察系统,以及一个由100个白色发光二极管组成的发光二极管阵列(罗兰咨询公司)。在三名健康受试者身上研究了两种亮度(125和340cd/m²)和四个时间频率(每秒4、8、12和24次反转)。此外,对一名受试者进行了亮度调谐实验(30、60、90、125和340cd/m²)。
不同刺激技术的比较显示,所有三种方法的PERG和VEP反应均可重复。发光二极管阵列产生的振幅略小于其他两种技术,我们将其归因于发光二极管场的设计。不同刺激技术之间未观察到峰值时间或相位的差异。使用发光二极管刺激时,PERG和VEP的亮度依赖性明显:随着亮度降低,我们测量到PERG和VEP的峰值时间增加,PERG的振幅降低。
我们得出结论,使用发光二极管进行棋盘格图形反转的视网膜中央刺激是可行的。其结果与显示器和麦克斯韦观察系统相当。
