Spatio-chromatic vision with multifocal diffractive intraocular lens.

IF 4.1 1区医学 Q1 OPHTHALMOLOGY

Eye and Vision Pub Date : 2023-08-01 DOI:10.1186/s40662-023-00350-5

Maria S Millan, Laura Clavé, Aurora Torrents, Jesús Armengol, Fidel Vega

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Abstract

Background: This study aims to detect alterations in the spatio-chromatic pseudophakic vision produced by multifocal diffractive intraocular lenses (IOLs) and provides a physical interpretation.

Methods: In vitro characterization of the imaging performance of two diffractive IOLs: AT LISA Tri (Zeiss) and FineVision (PhysIOL) in on-bench model eye illuminated with red (R, 625 nm), green (G, 530 nm) and blue (B, 455 nm) lights. We used the metrics: energy efficiency (EE), area under the modulation transfer function, longitudinal chromatic aberration (LCA), and halo intensity. Through-focus (TF) analysis and calculation of the expected defocus curve under white (W) daylight were included. In vivo visual acuity (VA) of 50 pseudophakics (60 eyes) was assessed under W, R, G, B lights at far and near. Two clinical experiments evaluated LCA and R, G, B TF-EE effects on pseudophakic vision and their relative importance.

Results: Clinical mean VA values under W light agreed with the predicted values at far and near for both IOLs. LCA measurements and R, G, B TF-EE curves were consistent with their lens design based on the 0th and 1st diffraction orders operative for far and near vision, respectively. LCA effects were compensated at near but noticed at far (- 0.75 D under B light). We detected strong asymmetry in visual resolution depending on the object distance and the illuminating wavelength-red predominance at far, blue predominance at near-in consistency with the TF-EE measurements.

Conclusions: Diffractive multifocal IOL designs produce asymmetries in the spatio-chromatic vision of pseudophakics beyond the alterations strictly due to LCA. VA asymmetry for far/near object distance under R and B illumination is clinically detectable in subjects implanted with IOLs with 0th and 1st diffraction orders for far and near vision, respectively. Such VA asymmetry cannot be explained solely from the influence of defocus, as would be derived from a chromatic difference of power, but mainly from the wavelength dependence of the EE.

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多焦衍射人工晶状体的空间色视觉。

背景:本研究旨在检测多焦衍射人工晶状体(iol)产生的空间色伪视的变化，并提供物理解释。方法:采用红(R, 625 nm)、绿(G, 530 nm)、蓝(B, 4555 nm)光对蔡司AT LISA Tri和FineVision (PhysIOL)两种衍射iol在实验台上模型眼的成像性能进行体外表征。我们使用的指标是:能量效率(EE)、调制传递函数下的面积、纵向色差(LCA)和光晕强度。通过对焦(TF)分析和计算白光(W)下的期望离焦曲线。在远、近W、R、G、B光下对50例(60只眼)假性晶状体患者的体内视力(VA)进行评估。两项临床实验评价了LCA和R、G、B TF-EE对假性视力的影响及其相对重要性。结果:两种人工晶状体在W光下的临床平均VA值与远、近距离预测值一致。LCA测量值和R、G、B TF-EE曲线分别基于远视和近视的第0级和第1级衍射，与透镜设计一致。LCA效应在近处得到补偿，但在远处得到注意(在B光下- 0.75 D)。我们检测到视觉分辨率的强烈不对称性取决于物体距离和照明波长——远时红色优势，近时蓝色优势——与TF-EE测量结果一致。结论:衍射多焦人工晶体设计在假性晶状体的空间色觉视觉上产生了不对称，超出了严格意义上的LCA改变。在R和B光照下，分别植入远、近衍射阶为0级和1级的iol患者在临床上可检测到远、近物体距离的VA不对称性。这种VA不对称不能仅仅从离焦的影响来解释，因为离焦是由功率的色差引起的，而主要是从EE的波长依赖性来解释的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Eye and Vision OPHTHALMOLOGY-

CiteScore

8.60

自引率

2.40%

发文量

审稿时长

15 weeks

期刊介绍： Eye and Vision is an open access, peer-reviewed journal for ophthalmologists and visual science specialists. It welcomes research articles, reviews, methodologies, commentaries, case reports, perspectives and short reports encompassing all aspects of eye and vision. Topics of interest include but are not limited to: current developments of theoretical, experimental and clinical investigations in ophthalmology, optometry and vision science which focus on novel and high-impact findings on central issues pertaining to biology, pathophysiology and etiology of eye diseases as well as advances in diagnostic techniques, surgical treatment, instrument updates, the latest drug findings, results of clinical trials and research findings. It aims to provide ophthalmologists and visual science specialists with the latest developments in theoretical, experimental and clinical investigations in eye and vision.