Optical performance of decentered monofocal intraocular lenses

Abstract

A model eye water cell was used to evaluate the optical performance of biconvex, meniscus, and piano-convex (spheric and aspheric) monofocal poly(methyl methacrylate) intraocular lenses when the lenses were centered and when they were decentered 1 mm and 2 mm. Resolution, induced astigmatism, and modulation transfer function measurements were performed for all lenses with the more convex surface of the lens oriented toward the incident light. The same measurements were performed for the piano-convex and meniscus lenses in the reverse orientation. The lens shapes least affected by decentration were the biconvex and spheric piano-convex with the convex surface oriented toward the incident light. When centered, the aspheric piano-convex lenses had the best overall contrast performance based on the modulation transfer function measurements. However, once decentered the performance of the aspheric lenses approached that of the meniscus lenses in the reverse orientation, the lens shape which had the worst performance.