Abstract
Sustained exposure to acetaldehyde, the major metabolite of ethanol, may influence psychomotor performance even after the breath ethanol level significantly drops several hours following ethanol consumption. We examined the relationship between psychomotor function and changes in exhaled ethanol and acetaldehyde concentrations after consuming a low dose (0.33 g/kg) of barley shochu, a traditional Japanese distilled alcohol beverage, at the point when the exhaled ethanol concentrations dropped below 78,000 parts per billion (0.15 mg/L), the standard threshold for driving under the influence of alcohol in Japan. We assessed how the genetic polymorphisms of rs671 G/G homozygous (*1/*1) and G/A heterozygous (*1/*2) of ALDH2 influenced the kinetics of ethanol and acetaldehyde in exhaled air and psychomotor dynamics using the Digit Symbol Substitution Test (DSST), Critical Flicker Fusion Test (CFFT), and visual analogue scale (VAS) up to 12 h after shochu or water intake. There was no significant difference in DSST and CFFT scores depending on genotype; however, the time required for the DSST to attain the level prior to drinking was longer in the ALDH2 *1/*2 group than in the *1/*1 group. In the VAS test, facial flushing and mood elevation tended to be higher in the *1/*2 group after shochu consumption. VAS scores for mood elevation and facial flushing correlated with acetaldehyde concentration in exhaled breath. These results indicate that DSST recovery tends to be slower and mood elevation higher in the ALDH2 *1/*2 group even when exposed to a low dose of alcohol.