{"title":"屈光度和近视眼示意图的调节版。","authors":"David A Atchison, W Neil Charman","doi":"10.1111/opo.13406","DOIUrl":null,"url":null,"abstract":"<p><strong>Aim: </strong>To develop an accommodating, wide-angle, schematic eye for emmetropia and myopia in which spectacle refraction and accommodation level are input parameters.</p><p><strong>Method: </strong>The schematic eye is based on an earlier unaccommodated refraction-dependent eye for myopia developed by Atchison in 2006. This has a parabolic gradient index lens and parameters derived from biometric and optical measurements on young adults. Several parameters are linearly dependent upon spectacle refraction (anterior radius of curvature of the cornea, axial length and vertex radii of curvature and conic asphericities of a biconic retina). The new accommodated schematic eye incorporates accommodation-dependent changes in several lens-related parameters. These changes are based on literature values for anterior chamber depth, lens thickness, vitreous chamber depth, lens surface radii of curvature and lens front surface asphericity. A parabolic variation of refractive index with relative distance from the lens centre is retained, with the same edge and centre refractive indices as the earlier model, but the distribution has been manipulated to maintain focus near the retina for the emmetropic case at 0 and 4 D accommodation. The asphericity of the lens back surface is changed so that spherical aberration and peripheral refraction approximately match typical literature trends. The model is used to compare spherical aberration and peripheral refraction in eyes with up to 4 D of myopia and 4 D of accommodation.</p><p><strong>Results: </strong>The levels of spherical aberration in the unaccommodated schematic eyes are similar to literature values for young adults, but the changes in spherical aberration with accommodation are approximately two-thirds of that found in an experimental study. As intended, peripheral refractions in the accommodated schematic eyes are similar to those of their unaccommodated counterparts.</p><p><strong>Conclusion: </strong>The wide-angle model extends the range of schematic eyes to include both refraction and accommodation as variable input parameters. It may be useful in predicting aspects of retinal image quality.</p>","PeriodicalId":19522,"journal":{"name":"Ophthalmic and Physiological Optics","volume":" ","pages":""},"PeriodicalIF":2.8000,"publicationDate":"2024-10-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Accommodating version of a schematic eye for emmetropia and myopia.\",\"authors\":\"David A Atchison, W Neil Charman\",\"doi\":\"10.1111/opo.13406\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Aim: </strong>To develop an accommodating, wide-angle, schematic eye for emmetropia and myopia in which spectacle refraction and accommodation level are input parameters.</p><p><strong>Method: </strong>The schematic eye is based on an earlier unaccommodated refraction-dependent eye for myopia developed by Atchison in 2006. This has a parabolic gradient index lens and parameters derived from biometric and optical measurements on young adults. Several parameters are linearly dependent upon spectacle refraction (anterior radius of curvature of the cornea, axial length and vertex radii of curvature and conic asphericities of a biconic retina). The new accommodated schematic eye incorporates accommodation-dependent changes in several lens-related parameters. These changes are based on literature values for anterior chamber depth, lens thickness, vitreous chamber depth, lens surface radii of curvature and lens front surface asphericity. A parabolic variation of refractive index with relative distance from the lens centre is retained, with the same edge and centre refractive indices as the earlier model, but the distribution has been manipulated to maintain focus near the retina for the emmetropic case at 0 and 4 D accommodation. The asphericity of the lens back surface is changed so that spherical aberration and peripheral refraction approximately match typical literature trends. The model is used to compare spherical aberration and peripheral refraction in eyes with up to 4 D of myopia and 4 D of accommodation.</p><p><strong>Results: </strong>The levels of spherical aberration in the unaccommodated schematic eyes are similar to literature values for young adults, but the changes in spherical aberration with accommodation are approximately two-thirds of that found in an experimental study. As intended, peripheral refractions in the accommodated schematic eyes are similar to those of their unaccommodated counterparts.</p><p><strong>Conclusion: </strong>The wide-angle model extends the range of schematic eyes to include both refraction and accommodation as variable input parameters. 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引用次数: 0
摘要
目的:针对屈光不正和近视,开发一种以眼镜屈光度和适应度为输入参数的适应性广角示意眼:方法:该示意眼是基于艾奇逊(Atchison)在 2006 年开发的无调节屈光度的近视眼。它有一个抛物线梯度指数镜片,参数来自对年轻人的生物测量和光学测量。有几个参数与眼镜屈光度成线性关系(角膜前曲率半径、轴向长度和顶点曲率半径以及双子视网膜的圆锥非球面度)。新的适应性示意图眼睛包含了与透镜相关的几个参数的适应性变化。这些变化基于前房深度、晶状体厚度、玻璃体腔深度、晶状体表面曲率半径和晶状体前表面非球面度的文献值。保留了折射率随距晶状体中心相对距离的抛物线变化,边缘和中心折射率与早期模型相同,但对其分布进行了调整,以在 0 和 4 D 角膜适应度下保持视网膜附近的焦点。透镜后表面的非球面度被改变,使球面像差和周边折射率与典型的文献趋势大致吻合。该模型用于比较近视度数达 4 D 和调节度数达 4 D 的眼睛的球面像差和周边屈光度:结果:未调适示意图眼睛的球差水平与文献中的青壮年值相似,但球差随调适的变化约为实验研究中发现的变化的三分之二。如预期的那样,适应模式眼的周边屈光与非适应模式眼的周边屈光相似:广角模型扩展了示意眼的范围,将屈光和调节作为可变输入参数。它可能有助于预测视网膜图像质量的各个方面。
Accommodating version of a schematic eye for emmetropia and myopia.
Aim: To develop an accommodating, wide-angle, schematic eye for emmetropia and myopia in which spectacle refraction and accommodation level are input parameters.
Method: The schematic eye is based on an earlier unaccommodated refraction-dependent eye for myopia developed by Atchison in 2006. This has a parabolic gradient index lens and parameters derived from biometric and optical measurements on young adults. Several parameters are linearly dependent upon spectacle refraction (anterior radius of curvature of the cornea, axial length and vertex radii of curvature and conic asphericities of a biconic retina). The new accommodated schematic eye incorporates accommodation-dependent changes in several lens-related parameters. These changes are based on literature values for anterior chamber depth, lens thickness, vitreous chamber depth, lens surface radii of curvature and lens front surface asphericity. A parabolic variation of refractive index with relative distance from the lens centre is retained, with the same edge and centre refractive indices as the earlier model, but the distribution has been manipulated to maintain focus near the retina for the emmetropic case at 0 and 4 D accommodation. The asphericity of the lens back surface is changed so that spherical aberration and peripheral refraction approximately match typical literature trends. The model is used to compare spherical aberration and peripheral refraction in eyes with up to 4 D of myopia and 4 D of accommodation.
Results: The levels of spherical aberration in the unaccommodated schematic eyes are similar to literature values for young adults, but the changes in spherical aberration with accommodation are approximately two-thirds of that found in an experimental study. As intended, peripheral refractions in the accommodated schematic eyes are similar to those of their unaccommodated counterparts.
Conclusion: The wide-angle model extends the range of schematic eyes to include both refraction and accommodation as variable input parameters. It may be useful in predicting aspects of retinal image quality.
期刊介绍:
Ophthalmic & Physiological Optics, first published in 1925, is a leading international interdisciplinary journal that addresses basic and applied questions pertinent to contemporary research in vision science and optometry.
OPO publishes original research papers, technical notes, reviews and letters and will interest researchers, educators and clinicians concerned with the development, use and restoration of vision.