Zapf H R, Bach M
Universitäts-Augenklinik, Freiburg, Germany.
Graefes Arch Clin Exp Ophthalmol. 1999 Feb;237(2):93-9. doi: 10.1007/s004170050201.
The pattern electroretinogram (PERG) amplitude is believed to be linearly related to contrast. In the context of analyzing the effects of media opacities on the PERG, we measured its contrast-amplitude function at various temporal frequencies.
PERGs were recorded in nine subjects with a checksize of 0.8 degree and a mean luminance of 45 cd/m2. Experiment 1 covered six temporal frequencies [checkerboard pattern onset/offset in a transient (4 Hz) condition and checkerboard pattern reversal at 7, 10, 13, 16, 21 rev/s] at three contrast levels (25%, 50% and 100%). A second experiment covered two frequencies (7 and 21 rev/s) at five contrast levels from 25 to 100%, in a large field (27 degrees x 32 degrees) and a perifoveal condition (central mask of 7.5 degrees radius).
Experiment 1: At all temporal frequencies the PERG amplitude increases with contrast, but the shape of the contrast-amplitude function varies markedly: Under transient conditions and at 7 rev/s, the PERG increases linearly with contrast, but this function displays a progressively positive curvature at higher frequencies (P < 0.001). At 21 rev/s a reduction of the contrast from 100% to 50% reduces the amplitude to 1/5. Experiment 2: Experiment 1 was replicated. The amplitude-contrast characteristic was found to be linear at 7 rev/s and smoothly accelerating at 21 rev/s; the same characteristics were found when stimulating the perifoveal area alone.
This dependency of the contrast characteristic on temporal frequency is contrary to what would be expected from a magno/parvo model. Further, this contrast dependency needs to be taken into account when designing stimuli for use in patients that may have media opacities.
图形视网膜电图(PERG)振幅被认为与对比度呈线性相关。在分析介质混浊对PERG的影响时,我们在不同时间频率下测量了其对比度-振幅函数。
对9名受试者进行PERG记录,方格大小为0.8度,平均亮度为45坎德拉每平方米。实验1涵盖了六个时间频率[在瞬态(4赫兹)条件下方格图案的起始/偏移以及在7、10、13、16、21转/秒时方格图案的反转],对比度水平为三个(25%、50%和100%)。第二个实验涵盖了两个频率(7和21转/秒),对比度水平从25%到100%共五个,在大视野(27度×32度)和中心凹旁条件(半径7.5度的中央遮挡)下进行。
实验1:在所有时间频率下,PERG振幅随对比度增加,但对比度-振幅函数的形状有显著变化:在瞬态条件下和7转/秒时,PERG随对比度呈线性增加,但在更高频率下该函数呈现出逐渐增大的正曲率(P<0.001)。在21转/秒时,对比度从100%降至50%会使振幅降至五分之一。实验2:重复了实验1。发现振幅-对比度特性在7转/秒时呈线性,在21转/秒时平滑加速;单独刺激中心凹旁区域时也发现了相同的特性。
对比度特性对时间频率的这种依赖性与大细胞/小细胞模型的预期相反。此外,在为可能有介质混浊的患者设计刺激时,需要考虑这种对比度依赖性。
