Ophthalmic Research Center, Research Institute for Ophthalmology and Vision Science, Shahid Beheshti University of Medical Sciences, Tehran, Iran.
Department of Biomedical Engineering, South Tehran Branch, Islamic Azad University, Tehran, Iran.
Doc Ophthalmol. 2021 Jun;142(3):305-314. doi: 10.1007/s10633-020-09805-9. Epub 2020 Nov 23.
Diabetic retinopathy (DR) is one of the leading causes of blindness worldwide. Non-proliferative diabetic retinopathy (NPDR) is a stage of the disease that contains morphological and functional disruption of the retinal vasculature and dysfunction of retinal neurons. This study aimed to compare time and time-frequency-domain analysis in the evaluation of electroretinograms (ERGs) in subjects with NPDR.
The ERG responses were recorded in 16 eyes from 12 patients with NPDR and 24 eyes from 12 healthy subjects as the control group. The implicit time, amplitude, and time-frequency-domain parameters of photopic and scotopic ERGs were analyzed.
The implicit times of b-waves in the dark-adapted 10.0 (P = 0.0513) and light-adapted 3.0 (P = 0.0414) were significantly increased in the NPDR group. The amplitudes of a- and b-wave showed a significantly decreased dark-adapted 10.0 (P = 0.0212; P = 0.0133) and light-adapted 3.0 (P = 0.0517; P = 0.0021) ERG of the NPDR group. The Cohen's d effect size had higher values in the amplitude of dark-adapted 10.0 b-wave (|d|= 1.8058) and amplitude of light-adapted 3.0 b-wave (|d|= 1.9662). The CWT results showed that the frequency ranges of the dominant components in dark-adapted 10.0 and light-adapted 3.0 ERG were decreased in the NPDR group compared to the healthy group (P < 0.05). The times associated with the NDPR group's dominant components were increased compared to normal eyes in both dark-adapted 10.0 and light-adapted 3.0 ERG (P < 0.05). All Cohen's d effect sizes of the implicit times and dominant frequency components were on a large scale (|d|> 1).
These findings suggest that the time and time-frequency parameters of both photopic and scotopic ERGs can be good indicators for DR. However, time-frequency-domain analysis could present more information might be helpful in the assessment of the DR severity.
糖尿病视网膜病变(DR)是全球致盲的主要原因之一。非增生性糖尿病视网膜病变(NPDR)是疾病的一个阶段,包含视网膜血管的形态和功能障碍以及视网膜神经元的功能障碍。本研究旨在比较时间和时频域分析在评估 NPDR 患者的视网膜电图(ERG)中的作用。
记录了 12 名 NPDR 患者的 16 只眼和 12 名健康对照者的 24 只眼的 ERG 反应。分析了明适应和暗适应 10.0 和 3.0 的光电流和时间频域参数。
NPDR 组暗适应 10.0(P=0.0513)和明适应 3.0(P=0.0414)的 b 波的潜伏期明显延长。NPDR 组暗适应 10.0(P=0.0212;P=0.0133)和明适应 3.0(P=0.0517;P=0.0021)的 a 波和 b 波的振幅明显降低。暗适应 10.0 b 波振幅(|d|=1.8058)和明适应 3.0 b 波振幅(|d|=1.9662)的 Cohen's d 效应量值较高。CWT 结果表明,与健康组相比,NPDR 组暗适应 10.0 和明适应 3.0 ERG 的优势成分的频率范围减小(P<0.05)。与正常眼相比,NPDR 组在暗适应 10.0 和明适应 3.0 ERG 中与优势成分相关的时间增加(P<0.05)。明适应和暗适应 10.0 和 3.0 ERG 的潜伏期和优势频率成分的所有 Cohen's d 效应量均为大尺度(|d|>1)。
这些发现表明,明适应和暗适应 ERG 的时间和时频参数都可以作为 DR 的良好指标。然而,时频域分析可能提供更多信息,有助于评估 DR 的严重程度。
