配戴双焦点近视控制隐形眼镜的高度近视眼的屈光行为和视网膜散焦。

IF 2.8 3区 医学 Q1 OPHTHALMOLOGY
Dawn Meyer, Javier Gantes-Nuñez, Martin Rickert, Nitya Murthy, Paul Chamberlain, Arthur Bradley, Pete Kollbaum
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引用次数: 0

摘要

目的:评估当近视度数超过 6.00 D 时,双聚焦(DF)近视控制隐形眼镜向视网膜传递的近视和远视散焦情况:为高度近视患者双侧配戴高倍 DF 镜片,镜片功率曲线与 Coopervision MiSight 1 天隐形眼镜(omafilcon A)和 Coopervision Proclear 1 天单视力 (SV) 镜片相匹配。当受试者适应六个目标幅值(-0.25 和 -1.00 至 -5.00D)的高对比度字母刺激(6/12 等效)时,使用金字塔形像差计对主视线和水平视网膜中央 ±20° 的波前进行测量。线性混合效应回归模型探讨了球面等效屈光不正(SERE)与诱导离焦之间的关系:对 13 名高度近视(球面等效屈光度 -6.50 至 -9.25 D)的青少年(13 至 32 岁,平均 [标准差,SD] 年龄 = 22.8 [4.9] 岁)进行了测试。DF 镜片的治疗光学区将视网膜离焦移动了预期的 -2.00 D,内治疗环的平均(标准差)差值(DF-SV)为 -2.21 (0.18) D。加入治疗光学镜片对适应准确性没有显著影响(p = 0.51)。在较近的视距下,适应滞后较大,SERE 每增加一倍,滞后约增加 0.30 D。在环形治疗区内测得的视网膜离焦在眼窝中心、鼻侧和颞侧 10° 以及鼻侧 20° 约为 -2.00 D,在颞侧 20° 则降至 -1.90 (0.57) D:结论:与近视度数较低的眼睛相比,高度近视眼的适应滞后性增加,视网膜增厚,这减少了 DF 近视控制镜片的近视视网膜散焦,而相对于 SV 矫正,治疗光学区产生了减少远视和引入近视视网膜散焦的综合效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Accommodative behaviour and retinal defocus in highly myopic eyes fitted with a dual focus myopia control contact lens.

Purpose: To evaluate the myopic and hyperopic defocus delivered to the retina by a dual focus (DF) myopia control contact lens when myopia exceeds 6.00 D.

Methods: Individuals with high myopia were fitted bilaterally with high-powered DF lenses containing power profiles matching a Coopervision MiSight 1 day contact lens (omafilcon A) and a Coopervision Proclear 1 day single vision (SV) lens. Wavefront measurements along the primary line of sight and across the central ±20° of the horizontal retina were acquired using a pyramidal aberrometer, while subjects accommodated to high-contrast letter stimuli (6/12 equivalent) at six target vergences (-0.25 and -1.00 to -5.00 D). Linear mixed-effects regression models explored the relationship between the spherical equivalent refractive error (SERE) and induced defocus.

Results: Thirteen teenagers and young adults (ages 13-32 years, mean [standard deviation, SD] age = 22.8 [4.9] years) with high myopia (SERE -6.50 to -9.25 D) were tested. The treatment optic zone of the DF lens shifted retinal defocus by the expected -2.00 D, with a mean (SD) difference (DF-SV) of -2.21 (0.18) D for the inner treatment ring. Inclusion of the treatment optic had no significant impact on accommodative accuracy (p = 0.51). Accommodative lags were larger at the nearer viewing distances, with lag increasing by approximately 0.30 D for every additional dioptre of SERE. Measured retinal defocus within the annular treatment zone was approximately -2.00 D at the foveal centre, 10° nasal and temporal and 20° nasal and reduced to -1.90 (0.57) D at 20° temporal.

Conclusions: Relative to eyes with lower levels of myopia, the increased accommodative lags and more prolate retinas of highly myopic eyes reduced the myopic retinal defocus from the DF myopia control lens, while the treatment optical zones generated the combined effect of reducing hyperopic and introducing myopic retinal defocus relative to an SV correction.

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来源期刊
CiteScore
5.10
自引率
13.80%
发文量
135
审稿时长
6-12 weeks
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.
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