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Abstract
Intraocular scatter significantly impairs visual performance and is a critical factor in limiting the ability to perform vision-dependent tasks, such as safe driving. Visual stimuli—ranging from lighting and road signs to lenses and ocular implants—can be optimized to minimize the detrimental effects of scatter. The success of such optimizations relies on accurate data concerning the behavioral effect of light spread across different wavelengths within the eye. This study aims to provide foundational data to inform and enhance the design of visual aids and stimuli for improved visual performance. Additionally, we investigated how ocular chromophores, such as iris and macula pigmentations, contribute to variations in intraocular scatter.