TY - JOUR T1 - The effect of spherical aberration on visual performance and refractive state for stimuli and tasks typical of night viewing JO - Journal of Optometry T2 - AU - Marín-Franch,Iván AU - Xu,Renfeng AU - Bradley,Arthur AU - Thibos,Larry N. AU - López-Gil,Norberto SN - 18884296 M3 - 10.1016/j.optom.2017.10.003 DO - 10.1016/j.optom.2017.10.003 UR - https://www.journalofoptometry.org/en-the-effect-spherical-aberration-on-articulo-S1888429617300857 AB - PurposeThe aim of this work was to examine the impact of Seidel spherical aberration (SA) on optimum refractive state for detecting and discriminating small bright lights on a dark background. MethodsAn adaptive-optics system was used to correct ocular aberrations of cyclopleged eyes and then systematically introduce five levels of Seidel SA for a 7-mm diameter pupil: 0,±0.18, and±0.36diopters (D)mm−2. For each level of SA, subjects were required to detect one or resolve two points of light (0.54 arc min diameter) on a dark background. Refractive error was measured by adjusting stimulus vergence to minimize detection and resolution thresholds. Two other novel focusing tasks for single points of light required maximizing the perceived intensity of a bright point's core and minimizing its overall perceived size (i.e. minimize starburst artifacts). Except for the detection task, luminance of the point of light was 1000cdm−2 on a black background lower than 0.5cdm−2. ResultsPositive SA introduced myopic shifts relative to the best subjective focus for dark letters on a bright background when there was no SA, whereas negative SA introduced hyperopic shifts in optimal focus. The changes in optimal focus were −1.7, −2.4, −2.0, and −9.2D of focus per Dmm−2 of SA for the detection task, resolution task, and maximization of core's intensity and minimization of size, respectively. ConclusionOcular SA can be a significant contributor to changes in refractive state when viewing high-contrast point sources typically encountered in nighttime environments. ER -