利用对结构光内视现象的时空灵敏度确定环向黄斑色素的特征

Dmitry A. Pushin, Davis V. Garrad, Connor Kapahi, Andrew E. Silva, Pinki Chahal, David G. Cory, Mukhit Kulmaganbetov, Iman Salehi, Melanie Mungalsingh, Taranjit Singh, Benjamin Thompson, Dusan Sarenac
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引用次数: 0

摘要

黄斑色素(MP)存在于环绕眼窝的径向亨氏纤维中,通过一种被称为 "海丁格尔刷 "的内视现象,能够感知偏振蓝光的方向。偏振光与眼部疾病和中枢视场功能障碍有关,其中最著名的是年龄相关性黄斑变性(AMD),这是导致全球可逆性失明的主要原因。近来,结构光技术与视觉科学的结合使人们能够开发出选择性更强、用途更广、可提供可解释阈值的眼健康光学探针。例如,它可以使用不同的空间频率和任意遮挡的刺激物。此外,它还将海丁格尔眼刷的 2{deg} 视网膜偏心率范围扩大到了 5{deg},适用于类似的基于边缘的刺激。在这项工作中,我们建立了一个时空敏感性模型,该模型将内视现象的感知阈值映射到支持其感知的基本MP结构上。因此,我们选择性地描述了环向黄斑色素光学密度(coMPOD),而不是通常测量的总黄斑色素光学密度,从而为黄斑健康提供了额外的量化指标。研究对五种具有独特时空频率的结构光刺激进行了视网膜同心度阈值测量。15名健康年轻人的研究结果表明,在1.5{/deg}到5.5{/deg}的范围内,coMPOD与视网膜同心度成反比。模型与收集到的数据之间具有良好的一致性,皮尔逊拟合统计量为 0.06。所提出的技术可应用于与黄斑变性有关的多种疾病的新型早期诊断测试,如AMD、黄斑部血管扩张症和病理性近视。
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Characterizing the circularly-oriented macular pigment using spatiotemporal sensitivity to structured light entoptic phenomena
The macular pigment (MP) in the radially-oriented Henle fibers that surround the foveola enables the ability to perceive the orientation of polarized blue light through an entoptic phenomena known as the Haidinger's brush. The MP has been linked to eye diseases and central field dysfunctions, most notably age-related macular degeneration (AMD), a globally leading cause of irreversible blindness. Recent integration of structured light techniques into vision science has allowed for the development of more selective and versatile entoptic probes of eye health that provide interpretable thresholds. For example, it enabled the use of variable spatial frequencies and arbitrary obstructions in the presented stimuli. Additionally, it expanded the 2{\deg} retinal eccentricity extent of the Haidinger's brush to 5{\deg} for a similar class of fringe-based stimuli. In this work, we develop a spatiotemporal sensitivity model that maps perceptual thresholds of entoptic phenomenon to the underlying MP structure that supports its perception. We therefore selectively characterize the circularly-oriented macular pigment optical density (coMPOD) rather than total MPOD as typically measured, providing an additional quantification of macular health. A study was performed where the retinal eccentricity thresholds were measured for five structured light stimuli with unique spatiotemporal frequencies. The results from fifteen healthy young participants indicate that the coMPOD is inversely proportional to retinal eccentricity in the range of 1.5{\deg} to 5.5{\deg}. Good agreement between the model and the collected data is found with a Pearson $\chi^2$ fit statistic of 0.06. The presented techniques can be applied in novel early diagnostic tests for a variety of diseases related to macular degeneration such as AMD, macular telangiectasia, and pathological myopia.
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