Abstract
Blue-light filtering lenses (BFLs) are marketed to protect the eyes from blue light that may be hazardous to the visual system. Because BFLs attenuate light, they reduce object contrast, which may impact visual behaviours such as the perception of object speed which reduces with contrast. In the present study, we investigated whether speed perception is affected by BFLs. Using a two-interval forced-choice procedure in conjunction with Method of Constant Stimuli, participants (n = 20) judged whether the perceived speed of a moving test stimulus (1.5–4.5°/s) viewed through a BFL was faster than a reference stimulus (2.75°/s) viewed through a clear lens. This procedure was repeated for 3 different BFL brands and chromatic and achromatic stimuli. Psychometric function fits provided an estimate of the speed at which both test and reference stimuli were matched. We find that the perceived speed of both chromatic and achromatic test stimuli was reduced by 6 to 20% when viewed through BFLs, and lenses that attenuated the most blue-light produced the largest reductions in perceived speed. Our findings indicate that BFLs whilst may reduce exposure to hazardous blue light, have unintended consequences to important visual behaviours such as motion perception.
Highlights
The proportion of times in which the test stimulus was judged to be moving faster than the reference stimulus was plotted as a function of the test stimulus speed
Fitted curves provided an estimate of the point of subject equality (PSE) which estimated the speed required to match the perceived speed of the reference stimulus which was viewed through the clear lens
Evident in this figure is that psychometric functions, for blue and achromatic targets, were shifted to the right, which indicated that Blue-light filtering lenses (BFLs) reduced the speed of the test stimulus, and the test stimulus had to physically move faster to match the reference stimulus speed
Summary
As the present study is the first to investigate the effect of BFLs on perceived speed, the goal of the research was not to establish population norms but was designed to be exploratory in nature and aimed to characterise speed perception changes due to blue light filtering lenses comprehensively in a small number of observers
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