刺激持续时间、神经适应与扫描视觉诱发电位敏锐度估计

Stimulus duration, neural adaptation, and sweep visual evoked potential acuity estimates.

作者信息

Ridder W H, McCulloch D, Herbert A M

机构信息

Southern California College of Optometry, Fullerton 92831, USA.

出版信息

Invest Ophthalmol Vis Sci. 1998 Dec;39(13):2759-68.

PMID:9856787

Abstract

PURPOSE

Results in several studies have suggested that the visual evoked potential (VEP) amplitude can vary with stimulus duration. The purpose of this study was to determine whether acuity estimates obtained by extrapolation of the sweep VEP are altered by this adaptation effect.

METHODS

Sweep VEP data were obtained from 16 healthy observers under binocular viewing conditions. Data were acquired with a commercially available VEP unit using standard electrode recording techniques. Three sweeps (high spatial frequencies, medium spatial frequencies, and low spatial frequencies) were run. The subjects' visual acuity at the monitor distance was 6/6 for the high spatial frequency sweep. For the medium and low spatial frequency sweeps, the subjects were dioptrically blurred to 6/15 (medium spatial frequencies) or 6/30 (low spatial frequencies) at the monitor distance. Each sweep consisted of six spatial frequencies (contrast 80%; temporal frequency (TF) = 7.5 Hz; screen luminance = 100 candela [cd]/m2). For each spatial frequency, the stimulus duration was 8 seconds, partitioned into 1-second bins. A minimum of eight sweeps were obtained per subject. An acuity estimate was obtained for each second's data by fitting a line to the high spatial frequencies (excluding noise) and extrapolating this line to the x-axis. With this technique, estimates could not be obtained for 29 of 384 possible acuities.

RESULTS

The sweep VEP acuities for the 16 subjects did not change significantly over the 8 seconds of data collection for the high, medium, or low spatial frequency sweep (repeated measures analysis of variance [ANOVA]: high, P = 0.25; medium, P = 0.50; low, P = 0.23). In any given subject, there was a 1- to 2-octave range in acuity estimates over the 8 seconds of stimulus presentation (high, 1.23+/-0.417 octaves; medium, 1.41+/-0.593 octaves; low, 1.52+/-0.475 octaves; mean +/- SD).

CONCLUSIONS

These results suggest that there is not a significant change in sweep VEP acuity estimates over an 8-second stimulus presentation. Thus, neural adaptation does not significantly affect the clinical use of the sweep VEP.

摘要

目的

多项研究结果表明视觉诱发电位（VEP）的振幅会随刺激持续时间而变化。本研究的目的是确定通过扫描VEP外推法获得的视力估计值是否会因这种适应效应而改变。

方法

在双眼观察条件下，从16名健康观察者获取扫描VEP数据。使用市售的VEP设备，采用标准电极记录技术采集数据。进行了三次扫描（高空间频率、中空间频率和低空间频率）。在高空间频率扫描时，受试者在显示器距离处的视力为6/6。对于中空间频率和低空间频率扫描，受试者在显示器距离处通过屈光模糊至6/15（中空间频率）或6/30（低空间频率）。每次扫描由六个空间频率组成（对比度80%；时间频率（TF）=7.5赫兹；屏幕亮度=100坎德拉[cd]/平方米）。对于每个空间频率，刺激持续时间为8秒，分为1秒的时间段。每位受试者至少获得八次扫描。通过对高空间频率（不包括噪声）拟合一条直线并将该直线外推至x轴，为每秒的数据获得一个视力估计值。使用该技术，在384个可能的视力值中，有29个无法获得估计值。

结果

在高、中、低空间频率扫描的数据收集的8秒内，16名受试者的扫描VEP视力没有显著变化（重复测量方差分析[ANOVA]：高，P = 0.25；中，P = 0.50；低，P = 0.23）。在任何给定受试者中，在8秒的刺激呈现过程中，视力估计值有1至2个八度的范围（高，1.23±0.417八度；中，1.41±0.593八度；低，1.52±0.475八度；平均值±标准差）。