Discriminative Stimulus Effects of Zolpidem in Pentobarbital-Trained Subjects: II. Comparison with Triazolam and Caffeine in Humans

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Vol. 280, Issue 1, 174-188, 1997

Discriminative Stimulus Effects of Zolpidem in Pentobarbital-Trained Subjects: II. Comparison with Triazolam and Caffeine in Humans

Craig R. Rush , Sudhakar Madakasira, Nancy H. Goldman, William L. Woolverton and James K. Rowlett

Department of Psychiatry and Human Behavior (C.R.R., S.M., W.L.W., J.K.R., N.H.G.) and Department of Pharmacology and Toxicology (C.R.R., W.L.W.), University of Mississippi Medical Center, Jackson, Mississippi

In the present study, four non-drug-abusing humans were trained to discriminate between a hypnotic dose of pentobarbital,100 mg, and placebo. After acquiring the pentobarbital-placebodiscrimination, a range of doses of zolpidem, triazolam, pentobarbitaland caffeine were tested to determine whether they shared discriminativestimulus effects with the training dose of pentobarbital. Zolpidem,a rapid-onset, short-duration, quickly eliminated imidazopyridinehypnotic agent, was tested because its discriminative stimuluseffects have been shown to differ from those of classic sedative/hypnoticcompounds in rodents, but not in nonhuman primates. Triazolamand caffeine were included as positive and negative controls,respectively. The subject-rated and performance-impairing effectsof zolpidem, triazolam, pentobarbital and caffeine were assessedconcurrently. These four subjects met the discrimination criterion( $>=$ 80% correct drug identifications on four consecutive sessions)in 4 to 18 (mean = 8.5) sessions, and the pentobarbital-placebodiscrimination was well maintained during a test-of-novel-dosesand test-of-novel-drugs phase (i.e., placebo and 100 mg pentobarbitaloccasioned 0-35% [mean = 17%] and 75-100% [mean = 85%] drug-appropriateresponding, respectively). Zolpidem, triazolam and pentobarbitalgenerally produced dose-related increases in pentobarbital-appropriateresponding and sedative-like, subject-rated drug effects. Caffeineon average produced low levels of pentobarbital-appropriate responding,although some doses of caffeine produced maximal pentobarbital-appropriateresponding in some subjects. Caffeine produced some stimulant-like(e.g., jittery, motivated, nervous and stimulated) subject-rateddrug effects. Zolpidem and triazolam, and to a much lesser extentpentobarbital, but not caffeine, impaired performance. These resultssuggest that humans can acquire and maintain a pentobarbital-placebodiscrimination, and this discrimination is pharmacologically specific.These results also suggest that despite the somewhat unique biochemicalprofile of zolpidem, its discriminative stimulus, subject-ratedand performance-pairing effects are similar to those of classicsedative/hypnotic compounds like the barbiturates and benzodiazepines.Finally, the results observed in the present study with zolpidem,triazolam and caffeine demonstrate that the discriminative stimuluseffects of drugs observed with nonhuman primates can be systematicallyreplicated in humans.

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