眼遮挡时眼位偏斜的定量分析:一项使用ORT e EYENAC眼动追踪系统的描述性研究
Quantitative analysis of ocular deviation under eye occlusion: a descriptive study using the ORTe EYENAC eye-tracking system.
作者信息
Tatara Shunya, Magara Yuna, Sasaki Touko, Maeda Fumiatsu, Murata Noriaki, Itagaki Kazuhiro, Handa Tomoya, Toda Haruo
机构信息
Department of Orthoptics and Visual Sciences, Niigata University of Health and Welfare, Niigata, Japan.
Department of Ophthalmology, Faculty of Medicine and Graduate School of Medicine, Hokkaido University, Sapporo, Japan.
出版信息
BMC Ophthalmol. 2025 May 6;25(1):267. doi: 10.1186/s12886-025-04101-z.
BACKGROUND
The cover-uncover test is traditionally used in the qualitative assessment of heterotropia and heterophoria, while the alternate prism cover test (APCT) quantifies ocular deviations. However, the APCT is time-consuming and prone to interexaminer variability. Video-oculography technology offers a promising alternative for quantifying ocular deviation under occlusion. This study aims to visualize ocular deviation during occlusion and determine the time it takes for deviation to stabilize in participants with exodeviation using the ORTe EYENAC eye-tracking system.
METHODS
The study participants included 15 university students aged 20-22 years, among whom 13 had exophoria, 1 had intermittent exotropia, and 1 had exotropia. Eye position was measured using the ORTe EYENAC, which records gaze when one eye is occluded. Data were fitted to a logistic function to estimate ocular deviations, deviation speed, and stabilization time. The overshoot depth was defined as the maximum deviation beyond the final position before stabilization. Spearman's rank correlation coefficient analyzed the correlations between the deviation angle, speed, and stabilization time.
RESULTS
The fusion-free eye position stabilized at 3.33 ± 2.39 s among those with exophoria. Significant correlations were found between the deviation angle and deviation speed (r = - 0.582, p = 0.0403), as well as between the deviation angle and stabilization time (r = 0.663, p = 0.0135). An overshoot of > 1°, 0.5°-1.0°, and < 0.5° was seen in 3, 4, and 6 patients, respectively. The overshoot depth also correlated with deviation speed (r = 0.775, p = 0.0029).
CONCLUSIONS
Ocular deviation under occlusion was effectively visualized in participants with exodeviation using the ORTe EYENAC, providing a clear representation of eye movement during the cover test. Among participants with exophoria, the fusion-free eye position stabilized at an average of 3.33 ± 2.39 s. However, the stabilization time varied with the angle of ocular deviation, suggesting that the occlusion time needs to be individually designed based on the angle of strabismus.
背景
遮盖试验传统上用于定性评估斜视和隐斜视,而交替棱镜遮盖试验(APCT)则用于量化眼位偏斜。然而,APCT耗时且容易出现检查者间的差异。视频眼动图技术为量化遮盖下的眼位偏斜提供了一种有前景的替代方法。本研究旨在使用ORTe EYENAC眼动追踪系统可视化遮盖期间的眼位偏斜,并确定外斜视参与者中偏斜稳定所需的时间。
方法
研究参与者包括15名年龄在20 - 22岁的大学生,其中13人有外隐斜,1人有间歇性外斜视,1人有外斜视。使用ORTe EYENAC测量眼位,该设备在一只眼睛被遮盖时记录注视情况。数据拟合逻辑函数以估计眼位偏斜、偏斜速度和稳定时间。过冲深度定义为稳定前超过最终位置的最大偏斜。Spearman等级相关系数分析偏斜角度、速度和稳定时间之间的相关性。
结果
外隐斜患者中无融合眼位在3.33±2.39秒时稳定。发现偏斜角度与偏斜速度之间存在显著相关性(r = - 0.582,p = 0.0403),偏斜角度与稳定时间之间也存在显著相关性(r = 0.663,p = 0.0135)。分别在3例、4例和6例患者中观察到过冲>1°、0.5° - 1.0°和<0.5°。过冲深度也与偏斜速度相关(r = 0.775,p = 0.0029)。
结论
使用ORTe EYENAC有效地可视化了外斜视参与者遮盖下的眼位偏斜,清晰呈现了遮盖试验期间的眼球运动。在外隐斜参与者中,无融合眼位平均在3.33±2.39秒时稳定。然而,稳定时间随眼位偏斜角度而变化,这表明需要根据斜视角度单独设计遮盖时间。
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