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黄斑色素空间分布对眩光障碍的影响。

Macular pigment spatial distribution effects on glare disability.

作者信息

Putnam Christopher M, Bassi Carl J

机构信息

University of Missouri, St Louis College of Optometry, United States.

University of Missouri, St Louis College of Optometry, United States.

出版信息

J Optom. 2015 Oct-Dec;8(4):258-65. doi: 10.1016/j.optom.2014.12.004. Epub 2015 Feb 16.

DOI:10.1016/j.optom.2014.12.004
PMID:25697374
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4591422/
Abstract

PURPOSE

This project explored the relationship of the macular pigment optical density (MPOD) spatial profile with measures of glare disability (GD) across the macula.

METHODS

A novel device was used to measure MPOD across the central 16° of retina along four radii using customized heterochromatic flicker photometry (cHFP)at eccentricities of 0°, 2°, 4°, 6° and 8°. MPOD was measured as discrete and integrated values at all measured retinal loci. GD was calculated as a difference in contrast sensitivity (CS) between no glare and glare conditions using identical stimuli presented at the same eccentricities. GD was defined as [(CSNo Glare-CSGlare)/CSNo Glare] in order to isolate the glare attenuation effects of MPOD by controlling for CS variability among the subject sample. Correlations of the discrete and integrated MPOD with GD were compared.

RESULTS

The cHFP identified reliable MPOD spatial distribution maps demonstrating a 1st-order exponential decay as a function of increasing eccentricity. There was a significant negative correlation between both measures of foveal MPOD and GD using 6 cycles per degree (cpd) and 9 cpd stimuli. Significant correlations were found between corresponding parafoveal MPOD measures and GD at 2 and 4° of eccentricity using 9 cpd stimuli with greater MPOD associated with less glare disability.

CONCLUSIONS

These results are consistent with the glare attenuation effects of MP at higher spatial frequencies and support the hypothesis that discrete and integrated measures of MPOD have similar correlations with glare attenuation effects across the macula. Additionally, peak foveal MPOD appears to influence GD across the macula.

摘要

目的

本项目探讨了黄斑色素光密度(MPOD)空间分布与黄斑区眩光残疾(GD)测量指标之间的关系。

方法

使用一种新型设备,通过定制的异色闪烁光度法(cHFP),在视网膜中央16°范围内沿着四条半径,在0°、2°、4°、6°和8°的偏心度下测量MPOD。在所有测量的视网膜位点上,MPOD被测量为离散值和积分值。使用相同的刺激物在相同的偏心度下,通过无眩光和有眩光条件下的对比敏感度(CS)差异来计算GD。为了通过控制受试者样本中的CS变异性来分离MPOD的眩光衰减效应,GD被定义为[(CS无眩光 - CS有眩光)/CS无眩光]。比较了离散和积分MPOD与GD的相关性。

结果

cHFP确定了可靠的MPOD空间分布图,显示出随着偏心度增加呈一阶指数衰减。使用每度6周/度(cpd)和9 cpd刺激时,中央凹MPOD测量指标与GD之间存在显著的负相关。在偏心度为2°和4°时,使用9 cpd刺激,在相应的旁中央凹MPOD测量指标与GD之间发现了显著相关性,MPOD越高,眩光残疾越小。

结论

这些结果与MP在较高空间频率下的眩光衰减效应一致,并支持以下假设:MPOD的离散和积分测量与整个黄斑区的眩光衰减效应具有相似的相关性。此外,中央凹峰值MPOD似乎会影响整个黄斑区的GD。

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本文引用的文献

1
Glare disability, photostress recovery, and chromatic contrast: relation to macular pigment and serum lutein and zeaxanthin.眩光障碍、光压力恢复和色对比:与黄斑色素和血清叶黄素及玉米黄质的关系。
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2
The ringlike structure of macular pigment in age-related maculopathy: results from the Muenster Aging and Retina Study (MARS).年龄相关性黄斑病变中黄斑色素的环状结构:来自明斯特衰老和视网膜研究(MARS)的结果。
Invest Ophthalmol Vis Sci. 2011 Oct 11;52(11):8016-24. doi: 10.1167/iovs.11-7610.
3
Macular pigment and visual performance in glare: benefits for photostress recovery, disability glare, and visual discomfort.黄斑色素与眩光下的视觉表现:在光致压力恢复、障碍眩光和视觉不适方面的益处。
Invest Ophthalmol Vis Sci. 2011 Sep 22;52(10):7406-15. doi: 10.1167/iovs.10-6699.
4
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5
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