Ramasubramanian Vivek Suganthan, Radhakrishnan Aiswaryah
Department of Optometry, Faculty of Medical and Health Sciences, SRM Medical College Hospital and Research Centre, SRM Institute of Science and Technology, Kattankulathur, Tamil Nadu, India.
J Ophthalmic Vis Res. 2025 Jul 21;20. doi: 10.18502/jovr.v20.13887. eCollection 2025.
Human vision is subnormal in an aquatic environment, and studies have used different methods to measure visual functions with water-induced blur (WIB). In this study, we compared vernier acuity measured using three different WIB simulation methods.
Sixty young adults (20 in each group) with best-corrected visual acuity of 6/6 participated in the study. Three different methods, one for each study group, were used to simulate WIB in order to measure the vernier acuity. The methods comprised M1: a glass tank filled with water containing a wave motor to produce waves, M2: a sprinkler with uncontrolled water splash against the glass, and M3: a sprinkler with controlled water splash against the glass. For each of the three methods, vernier acuity was measured binocularly (three trials of 50 presentations each) both at baseline (without simulated WIB) in the absence of WIB and under simulated WIB. This was conducted using FrACT presented on the Display++ monitor at a distance of 2 meters from the participant. The vernier target consisted of two vertical lines (1 x 15 arcmin) with a vertical separation of 0.5 arcmin.
The mean baseline vernier acuity (arcsec) was found to be similar (F = 0.20, = 0.82) among all three groups (M1: 13.28 5.84, M2: 14.44 6.34, M3: 14.05 3.28). Vernier acuity with simulated WIB was least degraded with M1 (19.84 8.40) and more degraded with M2 (288.74 56.61), followed by M3 (49.14 20.13). One-way ANOVA revealed a significant difference among the three methods (F [2, 57] = 354.72, 0.001).
Our results suggest that the impact of simulated WIB on vernier acuity is not comparable due to differences in the strength of blur and the varied spatial and temporal properties of different simulated WIB methods. This emphasizes the need to develop a blur metric specific to WIB to objectively quantify its effect on different visual functions.
在水生环境中,人类视觉低于正常水平,并且已有研究使用不同方法来测量水致模糊(WIB)情况下的视觉功能。在本研究中,我们比较了使用三种不同WIB模拟方法测量的游标视力。
60名最佳矫正视力为6/6的年轻成年人(每组20人)参与了本研究。为测量游标视力,每个研究组使用一种不同的方法来模拟WIB。这些方法包括:M1:一个装有水的玻璃水箱,配有波动电机以产生水波;M2:一个向玻璃上无控制地喷水的喷头;M3:一个向玻璃上有控制地喷水的喷头。对于这三种方法中的每一种,在基线时(无模拟WIB,即不存在WIB时)以及在模拟WIB情况下,双眼测量游标视力(每种情况进行三次试验,每次试验呈现50次)。这是使用在距离参与者2米处的Display++显示器上呈现的FrACT进行的。游标视标由两条垂直线(1×15角分)组成,垂直间距为0.5角分。
发现所有三组的平均基线游标视力(角秒)相似(F = 0.20,P = 0.82)(M1:13.28±5.84,M2:14.44±6.34,M3:14.05±3.28)。模拟WIB情况下,M1的游标视力下降最少(19.84±8.40),M2下降最多(288.74±56.61),其次是M3(49.14±20.13)。单因素方差分析显示三种方法之间存在显著差异(F [2, 57] = 354.72,P < 0.001)。
我们的结果表明,由于模糊强度的差异以及不同模拟WIB方法的空间和时间特性各异,模拟WIB对游标视力的影响不可比。这强调了需要开发一种特定于WIB的模糊度量标准,以客观地量化其对不同视觉功能的影响。
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