Abstract
BACKGROUND: Alcohol-related driving accidents and fatalities occur most frequently at nighttime and at dawn, that is, a mesopic lighting condition in which visual processing depends on both rod and cone photoreceptors. The temporal functions of the rod and cone pathways are critical for driving in this lighting condition. However, how alcohol influences the temporal functions in the rod and cone pathways at mesopic light levels is inconclusive. To address this, this study investigated whether an acute intoxicating dose of alcohol impairs rod- and/or cone-mediated critical fusion frequency (CFF; the lowest frequency of which an intermittent or flickering light stimulus is perceived as steady). METHODS: In Experiment I, we measured the CFFs for 3 types of visual stimuli (rod stimulus alone, cone stimulus alone, and the mixture of both stimuli types), under 3 illuminant light levels (dim illuminance: 2 Td; low illuminance: 20 Td; and medium illuminance: 80 Td) in moderate-heavy social drinkers before and after they consumed an intoxicating dose of alcohol (0.8 g/kg) compared with a placebo beverage. In Experiment II, we examined whether the illuminance level (dark vs. light) of the visual area surrounding the test stimuli alters alcohol's effect on the temporal processing of rods and cones. RESULTS: The results showed that compared with placebo, alcohol significantly reduced CFFs of all stimulus types at all illuminance levels. Furthermore, alcohol intoxication produced a larger impairment on rod-pathway-mediated CFFs under light versus dark surround. CONCLUSIONS: These results indicate that alcohol intake slows down rod and cone-pathway-mediated temporal processing. Further research may elucidate whether this effect may play a role in alcohol-related injury and accidents, which often occur under low-light conditions.