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10-2 视野结果的解释应考虑视盘和颞部纤维位置的个体差异。

The interpretation of results of 10-2 visual fields should consider individual variability in the position of the optic disc and temporal raphe.

机构信息

Department of Ophthalmology, Kindai University Faculty of Medicine, Osakasayama, Osaka, Japan.

Department of Optometry and Vision Sciences, University of Melbourne, Carlton, Victoria, Australia.

出版信息

Br J Ophthalmol. 2018 Mar;102(3):323-328. doi: 10.1136/bjophthalmol-2016-309669. Epub 2017 Jul 8.

DOI:10.1136/bjophthalmol-2016-309669
PMID:28689167
Abstract

AIMS

To clarify the anatomical relation between the optic disc and temporal raphe and to examine how these are related to test points in the 10-2 visual field test pattern.

SUBJECTS AND METHODS

For 22 eyes of volunteers with normal vision (+0.75 D spherical equivalent 7.88 D), a volume scan was used to obtain en-face images from a plane fitted to the inner limiting membrane using optical coherence tomography (OCT). The clearest en-face retinal nerve fibre (RNF) image was chosen for each subject and superimposed on fundus photographs using blood vessels for alignment. Individual landmarks (disc, fovea and visual field blind spot) were then used to superimpose the Humphrey Field Analyzer 10-2 visual field on the OCT image to compare with the RNF image.

RESULTS

The average disc-fovea-raphe angle was 169.4°±3.2°. Both the disc and temporal raphe were located above the horizontal midline (ie, were inferior in visual field space). For the 10-2 test pattern superimposed on the OCT image, in 54.5% of eyes, the temporal inferior test points adjacent to the horizontal midline mapped to the anatomical inferior hemifield. In 22.7% of eyes, nasal inferior test points adjacent to the horizontal midline mapped to the anatomical inferior hemifield. This mapping is opposite to typically assumed.

CONCLUSION

The position of the disc and raphe affects the mapping between structure and function with respect to superior and inferior hemifields. Individual differences in the position of the temporal raphe should be considered when mapping between structure and function for the 10-2 test pattern.

摘要

目的

阐明视盘与颞部视束之间的解剖关系,并探讨它们与 10-2 视野测试模式中的测试点之间的关系。

受试者和方法

对 22 只视力正常(+0.75 D 等效球镜 7.88 D)志愿者的眼睛进行容积扫描,使用光学相干断层扫描(OCT)获取与内界膜拟合的平面的表面图像。为每个受试者选择最清晰的视网膜神经纤维(RNF)表面图像,并使用血管将其与眼底照片叠加以进行对准。然后,使用个体标志(视盘、黄斑和视野盲点)将 Humphrey Field Analyzer 10-2 视野叠加到 OCT 图像上,与 RNF 图像进行比较。

结果

平均视盘-黄斑-视束角度为 169.4°±3.2°。视盘和颞部视束均位于水平中线上方(即视野空间中下方)。对于叠加在 OCT 图像上的 10-2 测试模式,在 54.5%的眼中,与水平中线相邻的颞部下测试点映射到解剖学下半球。在 22.7%的眼中,与水平中线相邻的鼻部下测试点映射到解剖学下半球。这种映射与通常假设的相反。

结论

视盘和视束的位置会影响结构与功能之间关于上、下半球的映射。在将结构与功能进行映射时,应考虑颞部视束位置的个体差异。

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