使用高分辨率视野检查法探索重测变异性

Exploring Test-Retest Variability Using High-Resolution Perimetry.

作者信息

Numata Takuya, Maddess Ted, Matsumoto Chota, Okuyama Sachiko, Hashimoto Shigeki, Nomoto Hiroki, Shimomura Yoshikazu

机构信息

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

Eccles Institute for Neuroscience, John Curtin School of Medical Research, Australian National University, Canberra, Australia.

出版信息

Transl Vis Sci Technol. 2017 Oct 4;6(5):8. doi: 10.1167/tvst.6.5.8. eCollection 2017 Sep.

DOI:10.1167/tvst.6.5.8

PMID:29046828

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5629923/

Abstract

PURPOSE

Test-retest variability (TRV) of visual field (VF) data seriously degrades our capacity to recognize true VF progression. We conducted repeated high-resolution perimetry with a test interval of 0.5° to investigate the sources of TRV. In particular, we examined whether the spatial variance of the observed sensitivity changes or if their absolute magnitude was of more importance.

METHODS

Sixteen eyes of 16 glaucoma patients were each tested three times at 61 VF locations along the superior-temporal 45° meridian using a modified protocol of the Octopus 900 perimeter. TRV was quantified as the standard deviation of the repeats at each point (retest-SD). We also computed the mean sensitivity at each point (retest-MS) and the running spatial-SD along the tested meridian. Multiple regression models investigated whether any of those variables (and also age, sex, and VF eccentricity) were significant independent determinants of TRV.

RESULTS

The main independent determinants of TRV were the retest-MS at -0.04 dB TRV/dB loss ( < 0.0001, -statistic 5.05), and the retest-SD at 0.47 dB spatial variance/dB loss ( < 0.0001, -statistic 12.5).

CONCLUSIONS

The larger effect for the spatial-SD suggested that it was perhaps a stronger determinant of TRV than scotoma depth per se. This might support the hypothesis that interactions between small perimetric stimuli, rapidly varying sensitivity across the field, and normal fixational jitter are strong determinants of TRV.

TRANSLATIONAL RELEVANCE

Our study indicates that methods that might reduce the effects of jagged sensitivity changes, such as increasing stimulus size or better gaze tracking, could reduce TRV.

摘要

目的

视野（VF）数据的重测变异性（TRV）严重削弱了我们识别真正VF进展的能力。我们以0.5°的测试间隔进行了重复的高分辨率视野检查，以研究TRV的来源。特别是，我们检查了观察到的敏感度变化的空间方差是否更重要，或者其绝对幅度是否更重要。

方法

使用Octopus 900视野计的改良方案，对16例青光眼患者的16只眼睛沿着颞上45°子午线的61个VF位置各进行了三次测试。TRV被量化为每个点重复测量的标准差（重测标准差）。我们还计算了每个点的平均敏感度（重测平均敏感度）以及沿测试子午线的连续空间标准差。多元回归模型研究了这些变量（以及年龄、性别和VF偏心率）是否是TRV的显著独立决定因素。

结果

TRV的主要独立决定因素是重测平均敏感度，其变化率为-0.04 dB TRV/ dB损失（P<0.0001，t统计量5.05），以及重测标准差，其空间方差变化率为0.47 dB/ dB损失（P<0.0001，t统计量12.5）。

结论

空间标准差的影响更大，这表明它可能是TRV比暗点深度本身更强的决定因素。这可能支持这样的假设，即小视野刺激之间的相互作用、整个视野中快速变化的敏感度以及正常的注视抖动是TRV的强决定因素。

转化相关性

我们的研究表明，可能减少锯齿状敏感度变化影响的方法，如增加刺激大小或更好的注视跟踪，可能会降低TRV。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/16e6/5629923/91d461f4bf38/i2164-2591-6-5-8-f01.jpg

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使用高分辨率视野检查法探索重测变异性

Exploring Test-Retest Variability Using High-Resolution Perimetry.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

TRANSLATIONAL RELEVANCE

目的

方法

结果

结论

转化相关性

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