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圆锥角膜患者视觉系统的定向特异性长期神经适应。

Orientation-specific long-term neural adaptation of the visual system in keratoconus.

机构信息

College of Optometry, University of Houston, TX, USA.

College of Optometry, University of Houston, TX, USA.

出版信息

Vision Res. 2021 Jan;178:100-111. doi: 10.1016/j.visres.2020.10.002. Epub 2020 Nov 12.

DOI:10.1016/j.visres.2020.10.002
PMID:33190099
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9119130/
Abstract

Eyes with the corneal ectasia keratoconus have performed better than expected (e.g. visual acuity) given their elevated levels of higher-order aberrations that cause rotationally asymmetric retinal blur. Adapted neural processing has been suggested as an explanation but has not been measured across multiple meridional orientations. Using a custom Maxwellian-view laser interferometer to bypass ocular optics, sinusoidal grating neural contrast sensitivity was measured in six eyes (three subjects) with keratoconus and four typical eyes (two subjects) at six spatial frequencies and eight orientations using a two-interval forced-choice paradigm. Total measurement duration was 24 to 28 hours per subject. Neural contrast sensitivity functions of typical eyes agreed with literature and generally showed the oblique effect on a linear-scale and rotational symmetry on a log-scale (rotational symmetry was quantified as the ratio of the minor and major radii of an ellipse fit to all orientations within each spatial frequency; typical eye mean 0.93, median 0.93; where a circle = 1). Mean sensitivities of eyes with keratoconus were 20% to 60% lower (at lower and higher spatial frequencies respectively) than typical eyes. Orientation-specific neural contrast sensitivity functions in keratoconus showed substantial rotational asymmetry (ellipse radii ratio: mean 0.84; median 0.86) and large meridional reductions. The visual image quality metric VSX was used with a permutation test to combine the asymmetric optical aberrations of the eyes with keratoconus and their measured asymmetric neural functions, which illustrated how the neural sensitivities generally mitigated the detrimental effects of the optics.

摘要

患有角膜扩张圆锥角膜的眼睛的表现超出预期(例如,视力),因为它们的高阶像差水平较高,导致旋转不对称的视网膜模糊。已经提出了适应性神经处理作为一种解释,但尚未在多个子午方向上进行测量。使用定制的麦克斯韦视图激光干涉仪绕过眼部光学,在六个患有圆锥角膜的眼睛(三个受试者)和四个典型眼睛(两个受试者)中测量了正弦光栅神经对比敏感度,使用两间隔强制选择范式在六个空间频率和八个方位进行测量。每个受试者的总测量时间为 24 到 28 小时。典型眼睛的神经对比敏感度函数与文献一致,通常在线性标度上显示斜向效应,在对数标度上显示旋转对称性(旋转对称性通过在每个空间频率内的所有方位拟合椭圆的短半轴和长半轴的比值来量化;典型眼平均值为 0.93,中位数为 0.93;其中一个圆=1)。患有圆锥角膜的眼睛的平均敏感度比典型眼睛低 20%至 60%(分别在较低和较高的空间频率)。圆锥角膜的特定方位神经对比敏感度函数显示出明显的旋转不对称性(椭圆半径比:平均值为 0.84;中位数为 0.86)和较大的子午线减少。使用置换检验,视觉图像质量指标 VSX 结合了圆锥角膜眼睛的不对称光学像差及其测量的不对称神经功能,这说明了神经敏感度通常如何减轻光学的不利影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a85/9119130/06111e147fb6/nihms-1643433-f0007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a85/9119130/b9d4c2c2341b/nihms-1643433-f0001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a85/9119130/06111e147fb6/nihms-1643433-f0007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a85/9119130/b9d4c2c2341b/nihms-1643433-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a85/9119130/b338ec3b9f2b/nihms-1643433-f0002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a85/9119130/47a83600a1a8/nihms-1643433-f0006.jpg
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