Reliability of gaze-contingent perimetry.

IF 4.6 2区 心理学 Q1 PSYCHOLOGY, EXPERIMENTAL
Behavior Research Methods Pub Date : 2024-08-01 Epub Date: 2023-09-11 DOI:10.3758/s13428-023-02225-y
Nikita Thomas, Jennifer H Acton, Jonathan T Erichsen, Tony Redmond, Matt J Dunn
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Abstract

Standard automated perimetry, a psychophysical task performed routinely in eyecare clinics, requires observers to maintain fixation for several minutes at a time in order to measure visual field sensitivity. Detection of visual field damage is confounded by eye movements, making the technique unreliable in poorly attentive individuals and those with pathologically unstable fixation, such as nystagmus. Microperimetry, which utilizes 'partial gaze-contingency' (PGC), aims to counteract eye movements but only corrects for gaze position errors prior to each stimulus onset. Here, we present a novel method of visual field examination in which stimulus position is updated during presentation, which we refer to as 'continuous gaze-contingency' (CGC). In the first part of this study, we present three case examples that demonstrate the ability of CGC to measure the edges of the physiological blind spot in infantile nystagmus with greater accuracy than PGC and standard 'no gaze-contingency' (NoGC), as initial proof-of-concept for the utility of the paradigm in measurements of absolute scotomas in these individuals. The second part of this study focused on healthy observers, in which we demonstrate that CGC has the lowest stimulus positional error (gaze-contingent precision: CGC = ± 0.29°, PGC = ± 0.54°, NoGC = ± 0.81°). CGC test-retest variability was shown to be at least as good as both PGC and NoGC. Overall, CGC is supported as a reliable method of visual field examination in healthy observers. Preliminary findings demonstrate the spatially accurate estimation of visual field thresholds related to retinal structure using CGC in individuals with infantile nystagmus.

凝视视力测定法的可靠性。
标准自动视力测定法是眼科诊所常规开展的一项心理物理任务,要求观察者每次保持定点几分钟,以测量视野敏感度。眼球运动会对视野损伤的检测造成干扰,因此对于注意力不集中的人和有眼球震颤等固定不稳定病理现象的人来说,这项技术并不可靠。利用 "部分注视一致性"(PGC)的微观视力表旨在抵消眼球运动,但只能纠正每次刺激开始前的注视位置误差。在这里,我们提出了一种新颖的视野检查方法,即在刺激出现时更新刺激位置,我们称之为 "连续注视同步"(CGC)。在本研究的第一部分,我们列举了三个案例,证明 CGC 能够测量婴儿眼球震颤的生理性盲点边缘,其准确性高于 PGC 和标准的 "无注视视力一致性"(NoGC),初步证明了该范式在测量这些人的绝对视网膜障时的实用性。本研究的第二部分主要针对健康观察者,我们证明 CGC 的刺激位置误差最小(注视相关精度:CGC = ± 0.29°,PGC = ± 0.54°,NoGC = ± 0.81°)。CGC 的测试-重复变异性至少与 PGC 和 NoGC 一样好。总体而言,CGC 被认为是一种可靠的视野检查方法。初步研究结果表明,在患有小儿眼球震颤的个体中,使用 CGC 可以在空间上准确估计与视网膜结构相关的视野阈值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
10.30
自引率
9.30%
发文量
266
期刊介绍: Behavior Research Methods publishes articles concerned with the methods, techniques, and instrumentation of research in experimental psychology. The journal focuses particularly on the use of computer technology in psychological research. An annual special issue is devoted to this field.
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