Kelly John P, Phillips James O, Weiss Avery H
Division of Ophthalmology, OA.5.345, Roger H. Johnson Vision Lab, Seattle Children's Hospital, 4800 Sand Point Way NE, Seattle, WA, 98105, USA.
Department of Ophthalmology, University of Washington School of Medicine, Seattle, WA, 98105, USA.
Doc Ophthalmol. 2016 Dec;133(3):159-169. doi: 10.1007/s10633-016-9566-6. Epub 2016 Nov 23.
Assessing vision in young children with optic nerve hypoplasia (ONH) is challenging due to multi-directional infantile nystagmus, the range of optic nerve loss, and cognitive delay. This study examined visual evoked potential (VEP) responses and averaging techniques in children with ONH. The assumption is that EEG epochs with inconsistent temporal phase would be associated with nystagmus, signal reduction due to axon loss, and visual inattention.
A retrospective chart review was performed on 44 children (average age 2.2 years; SD 1.9). Optic disc diameter was estimated by ophthalmoscopy. Visual function was measured under binocular viewing and then compared to the eye with the larger optic disc to exclude secondary amblyopia. Visual acuity was measured by Teller cards or by recognition optotypes, and both measures were converted into log minimum angle of resolution (logMAR). VEPs were recorded to onset/offset of horizontal gratings and to reversing checkerboards. Signal-to-noise ratios (SNRs) were estimated from phase consistency across epochs in the Fourier domain. VEPs were also averaged after (1) correction of epochs for phase shifts across a limited bandwidth, or (2) selection of only epochs showing phase consistency.
Optic disc diameter, logMAR, VEP amplitudes, and VEP SNR were all significantly inter-correlated. Optic disc diameter correlated best with VEP SNR (Spearman rho = 0.82; p < 0.001). Age-corrected logMAR correlated with optic disc diameter and VEP SNR (Spearman rho = -0.695 and 0.70, respectively; p < 0.001). VEP latency poorly correlated with optic disc diameter or logMAR. Correction of phase shifts or selection of epochs based on phase consistency significantly increased VEP amplitude and SNR for children with optic disc diameters <1000 microns. Correction of phase inconsistency did not improve the correlation of VEP parameters with optic disc diameter or with logMAR.
In ONH, the size of the optic nerve is correlated with VEP SNR and logMAR. The results imply a direct relationship between the reduction in optic nerve axons and generalized reduction in visual function. Our calculation of VEP SNR provides objective assessment of optic nerve function that is independent of subjective scoring of VEP peaks.
由于存在多向性婴儿眼球震颤、视神经损伤范围以及认知延迟,评估患有视神经发育不全(ONH)的幼儿视力具有挑战性。本研究检测了患有ONH的儿童的视觉诱发电位(VEP)反应及平均技术。假设是,具有不一致时间相位的脑电图片段将与眼球震颤、轴突损失导致的信号降低以及视觉注意力不集中相关。
对44名儿童(平均年龄2.2岁;标准差1.9)进行回顾性病历审查。通过检眼镜估计视盘直径。在双眼观察下测量视觉功能,然后与视盘较大的眼睛进行比较以排除继发性弱视。通过泰勒视力卡或识别视标测量视力,两种测量结果均转换为对数最小分辨角(logMAR)。记录对水平光栅的起始/偏移以及翻转棋盘格的VEP。在傅里叶域中根据各片段间的相位一致性估计信噪比(SNR)。在以下情况后也对VEP进行平均:(1)在有限带宽内对片段进行相移校正,或(2)仅选择显示相位一致性的片段。
视盘直径、logMAR、VEP振幅和VEP SNR均显著相互关联。视盘直径与VEP SNR的相关性最佳(斯皮尔曼相关系数ρ = 0.82;p < 0.001)。年龄校正后的logMAR与视盘直径和VEP SNR相关(斯皮尔曼相关系数ρ分别为 -0.695和0.70;p < 0.001)。VEP潜伏期与视盘直径或logMAR的相关性较差。对于视盘直径<1000微米的儿童,相移校正或基于相位一致性选择片段可显著增加VEP振幅和SNR。相位不一致的校正并未改善VEP参数与视盘直径或与logMAR的相关性。
在ONH中,视神经大小与VEP SNR和logMAR相关。结果表明视神经轴突减少与视觉功能普遍降低之间存在直接关系。我们对VEP SNR的计算提供了对视神经功能的客观评估,该评估独立于VEP峰值的主观评分。
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