Ridder William H
Southern California College of Optometry, Fullerton, CA, USA.
Doc Ophthalmol. 2004 Nov;109(3):239-47. doi: 10.1007/s10633-004-8053-7.
The spatial frequency sweep visual evoked potential (sVEP) is used to rapidly determine visual acuity in children or non-responsive patients. Two techniques have been used to separate signal from noise: (1) the 95% confidence interval for the signal amplitude (95% CI) or (2) the amplitude of a Fourier frequency adjacent to 2x the signal frequency (DFT). The purpose of this study is to determine if there is a significant difference in acuity estimates with these techniques.
Ten normal subjects (approximately 0.00 logMAR acuity) and 11 patients with decreased visual acuity took part in this project. Stimulus production and data analysis were done with an Enfant 4010 (Neuroscientific Corp). Standard VEP recording techniques were employed. The stimulus was a horizontal-oriented, sine wave grating that swept up the spatial frequency spectrum (contrast 80%, temporal reversal rate 7.5 Hz). Sweeps were repeated until the confidence intervals for the data were no longer decreasing. The Bailey Lovie logMAR chart was used to determine visual acuity. A line was fit to the high spatial frequency data using either the 95% CI or the DFT as the noise estimate. By using these linear equations, acuity estimates were obtained at 0, 1, and 2 microV signal amplitudes.
The average logMAR acuity for the subjects with normal acuity was -0.06 +/- 0.070 (SD). The sVEP acuity estimates were 0.08 +/- 0.098, 0.18 +/- 0.092, and 0.33 +/- 0.195 (0, 1, and 2 microV extrapolations) with the 95% CI used as noise and 0.07 +/- 0.100, 0.18 +/- 0.103, and 0.33 +/- 0.202 (0, 1, and 2 microV extrapolations) with the DFT used as noise. By using the average noise from the Fourier frequency as the extrapolation level, the acuity was 0.10 +/- 0.098 logMAR. The average logMAR acuity for the subjects with decreased visual acuity was 0.67 +/- 0.306 (SD). The sVEP acuity estimates were 0.53 +/- 0.175, 0.66 +/- 0.171, and 0.88 +/- 0.295 (0, 1, and 2 microV extrapolations) with the 95% CI used as noise and 0.53 +/- 0.179, 0.65 +/- 0.176, and 0.86 +/- 0.268 (0, 1, and 2 microV extrapolations) with the DFT used as noise. By using the average noise from the Fourier frequency as the extrapolation level, the acuity was 0.57 +/- 0.186 logMAR. No significant difference was found between the two acuity estimate techniques for all of the subjects (repeated measures ANOVA, p = 0.16, F20 = 2.131). The sVEP estimates of acuity to the 0 microV and noise levels were not significantly different from the logMAR acuity (paired t-test, all p values > 0.05).
The results indicate that the sVEP acuity does not depend on the noise estimation technique. In agreement with prior studies, the sVEP acuity underestimates the logMAR acuity in normally sighted individuals by about an octave.
空间频率扫描视觉诱发电位(sVEP)用于快速测定儿童或无反应患者的视力。有两种技术用于从噪声中分离信号:(1)信号幅度的95%置信区间(95%CI)或(2)与信号频率两倍相邻的傅里叶频率的幅度(DFT)。本研究的目的是确定使用这些技术进行视力估计时是否存在显著差异。
10名正常受试者(视力约为0.00 logMAR)和11名视力下降的患者参与了该项目。使用Enfant 4010(Neuroscientific Corp)进行刺激产生和数据分析。采用标准的VEP记录技术。刺激是一个水平方向的正弦波光栅,它在空间频谱上进行扫描(对比度80%,时间反转率7.5 Hz)。重复扫描,直到数据的置信区间不再减小。使用贝利-洛维视力表(Bailey Lovie logMAR chart)来确定视力。使用95%CI或DFT作为噪声估计,对高空间频率数据拟合一条直线。通过这些线性方程,在0、1和2微伏信号幅度下获得视力估计值。
正常视力受试者的平均logMAR视力为-0.06±0.070(标准差)。以95%CI作为噪声时,sVEP视力估计值分别为0.08±0.098、0.18±0.092和0.33±0.195(0、1和2微伏外推值);以DFT作为噪声时,sVEP视力估计值分别为0.07±0.100、0.18±0.103和0.33±0.202(0、1和2微伏外推值)。以傅里叶频率的平均噪声作为外推水平时,视力为0.10±0.098 logMAR。视力下降受试者的平均logMAR视力为0.67±0.306(标准差)。以95%CI作为噪声时,sVEP视力估计值分别为0.53±0.175、0.66±0.171和0.88±0.295(0、1和2微伏外推值);以DFT作为噪声时,sVEP视力估计值分别为0.53±0.179、0.65±0.176和0.86±0.268(0、1和2微伏外推值)。以傅里叶频率的平均噪声作为外推水平时,视力为0.57±0.186 logMAR。对于所有受试者,两种视力估计技术之间未发现显著差异(重复测量方差分析,p = 0.16,F20 = 2.131)。sVEP在0微伏和噪声水平下的视力估计值与logMAR视力无显著差异(配对t检验,所有p值>0.05)。
结果表明,sVEP视力不依赖于噪声估计技术。与先前的研究一致,在正常视力个体中,sVEP视力比logMAR视力低约一个八度。
