Differences in visual quality with orientation of a rotationally asymmetric bifocal intraocular lens design

Abstract

To evaluate visual and perceptual performance for different orientations of a rotationally asymmetric bifocal intraocular lens (IOL) (M-Plus) simulated optically using a simultaneous vision simulator. Instituto de Optica, Madrid, Spain. Prospective observational study. Perceptual quality and decimal high-contrast visual acuity (HCVA) was measured under cycloplegia for 8 orientations of the asymmetric bifocal IOL phase pattern at far, intermediate, and near distances simulated with a simultaneous vision simulator using face images and tumbling E targets. The preferred orientation at each distance was calculated as the centroid of the data for 8 orientations. The visual Strehl value was calculated using the subjects' ocular aberrations and multifocal pattern at each orientation. Optical predictions were obtained by implementing a differential visual Strehl values-based ideal observer model. The study comprised 20 subjects (aged 21 to 62years). Horizontal orientation (near segment at 0 or 180 degrees±45 [SD]) was preferred by 14 subjects and by 13 subjects at far and near distances, respectively; 8 subjects showed strong orientation preferences. The mean difference in preferred orientation between far and near was 27±22 degrees. No significant differences in HCVA were observed. Optical predictions correlated strongly and significantly with measurements (far r=0.71, near r=0.62; P<.0001). The mean difference between measurement and simulation in the preferred orientation was 28±29 degrees at far and 36±28 degrees at near. The perception varied for different orientations of an asymmetric bifocal IOL design tested using a simultaneous vision simulator. Optimum orientation was driven by interactions of the design with the eye's optical aberrations. None of the authors has a financial or proprietary interest in any material or method mentioned.