[Contribution of zolpidem in the management of sleep disorders].

Zolpidem is a nonbenzodiazepine hypnotic agent belonging to a new class of psychotropic drugs the imidazopyridines which enhance the GABAA receptor function by interacting with a specific receptor population. Zolpidem binds selectively to the Omega-1 receptor subtype and from a pharmacological point of view differs from benzodiazepines (BZD) by producing a strong sedative and hypnotic profile which predominates over the anticonvulsivant and anxiolytic activity and moreover appears practically devoid of myorelaxant properties. From a pharmacodynamic point of view, these results suggest that zolpidem facilitates more selectively than BZD, GABAA function and produces a selective hypnotic effect. Though if the role played by receptors in tolerance and dependence has not been yet fully elucidated, it could be described as an adaptative process to sustained stimulation of GABA function. Animal data obtained with zolpidem differs substantially from that of the BZD and indicates that repeated zolpidem administration may not lead to phenomena of tolerance and withdrawal syndrome after abrupt drug discontinuation. In human following oral intake, zolpidem is very rapidly (Tmax: 30-40 min) absorbed. The clearance is essentially metabolic and less than 1% is recovered in urine. The apparent plasma half-life is of 2.0-2.5 hours in most adult subjects and metabolites are totally inactive. The hypnotic activity of zolpidem and its effects on sleep architecture have been assessed in polysomnographic studies: 11 studies in 579 healthy volunteers and 12 studies in 202 insomniac patients. From all the patient studies, it emerges clearly that zolpidem at the dose of 10 mg significantly decreases sleep onset latency, the number and the duration of nocturnal awakenings, and concomitantly increases total sleep time. Furthermore, at variance with what observed with reference benzodiazepine hypnotics, zolpidem does not alter patient sleep architecture: it increases only moderately stage 2, it increases, when reduced, stages 3 and 4 (slow wave sleep) and it does not decrease REM sleep. Clinical studies conducted on more than 4,000 insomniac patients have clearly shown that at the dose of 10-20 mg, zolpidem induces from the first night a definite hypnotic effect in all types of insomnia. In elderly subjects an initial dose of 5 mg should be considered. The possible presence of residual effects during the day following administration of zolpidem has been assessed in 535 healthy volunteers and in 133 insomniac patients according to a double blind (versus placebo and/or benzodiazepine) controlled design.(ABSTRACT TRUNCATED AT 400 WORDS)