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使用自适应光学扫描激光检眼镜测量健康人视网膜从中央凹到中周部的视杆和视锥细胞密度变化。

Variation in rod and cone density from the fovea to the mid-periphery in healthy human retinas using adaptive optics scanning laser ophthalmoscopy.

作者信息

Wells-Gray E M, Choi S S, Bries A, Doble N

机构信息

College of Optometry, The Ohio State University, Columbus, OH, USA.

Department of Biomedical Engineering, The Ohio State University, Columbus, OH, USA.

出版信息

Eye (Lond). 2016 Aug;30(8):1135-43. doi: 10.1038/eye.2016.107. Epub 2016 May 27.

DOI:10.1038/eye.2016.107
PMID:27229708
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4985666/
Abstract

PurposeTo characterize the rod and cone photoreceptor mosaic at retinal locations spanning the central 60° in vivo using adaptive optics scanning laser ophthalmoscopy (AO-SLO) in healthy human eyes.MethodsAO-SLO images (0.7 × 0.9°) were acquired at 680 nm from 14 locations from 30° nasal retina (NR) to 30° temporal retina (TR) in 5 subjects. Registered averaged images were used to measure rod and cone density and spacing within 60 × 60 μm regions of interest. Voronoi analysis was performed to examine packing geometry at all locations.ResultsAverage peak cone density near the fovea was 164 000±24 000 cones/mm(2) and decreased to 6700±1500 and 5400±700 cones/mm(2) at 30° NR and 30° TR, respectively. Cone-to-cone spacing increased from 2.7±0.2 μm at the fovea to 14.6±1.4 μm at 30° NR and 16.3±0.7 μm at 30° TR. Rod density peaked at 25° NR (124 000±20 000 rods/mm(2)) and 20° TR (120 000±12 000 rods/mm(2)) and decreased at higher eccentricities. Center-to-center rod spacing was lowest nasally at 25° (2.1±0.1 μm). Temporally, rod spacing was lowest at 20° (2.2±0.1 μm) before increasing to 2.3±0.1 μm at 30° TR.ConclusionsBoth rod and cone densities showed good agreement with histology and prior AO-SLO studies. The results demonstrate the ability to image at higher retinal eccentricities than reported previously. This has clinical importance in diseases that initially affect the peripheral retina such as retinitis pigmentosa.

摘要

目的

使用自适应光学扫描激光检眼镜(AO-SLO)对健康人眼中央60°范围内的视网膜位置的视杆和视锥光感受器镶嵌结构进行体内特征分析。

方法

在5名受试者中,从鼻侧视网膜(NR)30°到颞侧视网膜(TR)30°的14个位置采集680nm的AO-SLO图像(0.7×0.9°)。使用配准的平均图像测量60×60μm感兴趣区域内的视杆和视锥密度及间距。进行Voronoi分析以检查所有位置的排列几何结构。

结果

中央凹附近的平均视锥峰值密度为164000±24000个视锥/mm²,在30°鼻侧视网膜和30°颞侧视网膜分别降至6700±1500和5400±700个视锥/mm²。视锥与视锥之间的间距从中央凹处的2.7±0.2μm增加到30°鼻侧视网膜处的14.6±1.4μm和30°颞侧视网膜处的16.3±0.7μm。视杆密度在25°鼻侧视网膜(124000±20000个视杆/mm²)和20°颞侧视网膜(120000±12000个视杆/mm²)达到峰值,并在更高的偏心度下降低。中心到中心的视杆间距在鼻侧25°处最小(2.1±0.1μm)。在颞侧,视杆间距在20°处最小(2.2±0.1μm),然后在到30°颞侧视网膜处增加到2.3±0.1μm。

结论

视杆和视锥密度均与组织学及先前的AO-SLO研究结果高度一致。结果表明能够在比先前报道更高的视网膜偏心度下成像。这在最初影响周边视网膜的疾病如色素性视网膜炎中具有临床意义。

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