Ten female subjects (five smokers and five non-smokers) performed a choice reaction time task (CRT), a compensatory tracking task (CTT), a short-term memory task (STM) and were tested for their critical flicker fusion threshold (CFF) at set points over 4 h after the administration of each possible combination of nicotine (2 mg gum or placebo), caffeine (250 mg capsule or placebo) and alcohol (30 g or placebo). Memory and motor function were shown to be facilitated by nicotine or caffeine, and the debilitating effects of alcohol were frequently antagonised by either drug. In spite of the differences in their neuropharmacological actions, combinations of nicotine, caffeine and alcohol may be compared through their effects on common information processing mechanisms involved in psychomotor performance.
Two experiments were conducted to investigate the effects of nicotine on human performance. In the first study six smokers, who had been allowed to smoke normally prior to testing, completed a battery of psychometric tests (choice reaction time, memory scanning, tracking and flicker fusion threshold) at set points over 4 h after chewing 0, 2, or 4 mg nicotine polacrilex gum. A second study followed a similar design, but used five non-smoker volunteers who were required to chew only the 0 or 2 mg nicotine gum. Blood nicotine levels following the gum were measured in all subjects. The results indicate that additional nicotine improved both the speed and accuracy of motor activity among the smokers, but did not enhance central cognitive processes. No drug effects were found in the non-smoker study.
The psychomotor effects of single and repeated doses of 2 mg nicotine gum were investigated in 13 regular smokers who had abstained from tobacco overnight. In comparison to baseline, a first dose of nicotine led to significantly raised critical flicker fusion thresholds, faster motor reaction times, improved compensatory tracking performance, and faster short-term memory reaction times. Performance after a second and third dose of nicotine remained significantly improved on all measures in comparison to baseline, and absolutely improved when comparing first and third nicotine doses on measures of sensorimotor performance. Throughout, comparisons with a placebo gum condition confirmed that these effects were genuine and not subject to the development of acute nicotine tolerance, suggesting that the enhancement of psychomotor performance experienced by smokers after a first cigarette may be maintained by repeated smoking.
Reboxetine is a novel antidepressant that has been shown to be effective in the treatment of major depressive disorders. The present experiment was designed to assess whether it affects the cognitive and psychomotor skills necessary for optimum function in everyday life. Ten healthy male volunteers received reboxetine 0.5 mg, 1 mg or 4 mg, amitriptyline 25 mg, or matched placebo with and without alcohol (0.6 mg kg−1) in a double-blind 10-way crossover study. A psychometric test battery was administered at baseline and at 1, 2.25, 3.5, 6 and 9 h post-dose. The results showed that reboxetine had little or no effect on performance at any dose, compared with placebo. Amitriptyline, however, with and without alcohol, lowered critical flicker fusion threshold compared with placebo and/or reboxetine at all test points (e.g. at 3.5 h: 28.51 vs 30.33 Hz; P<0.05); increased reaction time (e.g. 619 vs 540 ms; P<0.05); increased tracking error (e.g. 16.34 vs 8.54 RMS units; P<0.05); and slowed short-term memory scanning (e.g. 742 vs 590 ms; P<0.05). It is concluded that reboxetine at doses of 4 mg and below is free from disruptive effects on cognitive function and psychomotor performance, and that it does not act synergistically with alcohol, in contrast to amitriptyline.
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