Kalikivayi V, Kannan K, Ganesan A R
Elite School of Optometry.
Biomed Sci Instrum. 2015;51:266-72.
In any optical system, optical aberrations of the imaging system affect the image quality. The human eye is also like an optical system which has optical aberrations influencing the quality of the retinal image. When pupil size exceeds 3 mm, ocular aberrations increase and play a major role on retinal image degradation. Pupil diameter is made constant in commercially available aberrometers by mathematically rescaling it. The aim of this study is to validate the pupil rescaling technique by using COAS (Complete Ophthalmic Analysis System)Shack Hartmann Aberrometer. Five subjects were recruited for this study. The measurements were taken over a moderately large pupil of 5mm in normal room illumination to allow for natural pupil dilation. The analyses diameter is fixed at 5 mm in COAS which means it rescales the aberration data to 5 mm if the pupil diameter recorded was more than 5 mm at the time of measurement. Ocular aberrations for natural and rescaled pupil sizes were analyzed. Estimation of ocular aberrations showed there was no statistical significance between natural pupil and rescaled pupil diameter.
在任何光学系统中,成像系统的光学像差都会影响图像质量。人眼也类似于一个存在影响视网膜图像质量的光学像差的光学系统。当瞳孔大小超过3毫米时,眼像差增加并在视网膜图像退化中起主要作用。在市售的像差仪中,通过数学重新缩放使瞳孔直径保持恒定。本研究的目的是使用COAS(综合眼科分析系统)夏克-哈特曼像差仪验证瞳孔重新缩放技术。本研究招募了五名受试者。在正常室内照明条件下,对5毫米的中等大瞳孔进行测量,以允许自然瞳孔扩张。在COAS中分析直径固定为5毫米,这意味着如果测量时记录的瞳孔直径大于5毫米,它会将像差数据重新缩放到5毫米。分析了自然瞳孔大小和重新缩放后的瞳孔大小的眼像差。眼像差估计显示自然瞳孔和重新缩放后的瞳孔直径之间没有统计学意义。