The effects of flurazepam hydrochloride on brain electrical activity during sleep

Abstract

To further evaluate the effects of flurazepam on EEG during sleep, following 7 nights of placebo baseline, flurazepam (30 mg) was administered to 6 young adult poor sleepers for 10 additional nights while 6 other young adult poor sleepers continued to receive placebo capsules in a double-blind paradigm. Three placebo follow-up nights were recorded 2–3 weeks post-treatment. Twelve good sleepers received only placebo capsules for the first 7 nights. Delta waves, 0.5–2 c/sec, and sleep spindles were counted on-line by a phasic detector. Delta activity was also analyzed off-line by PDP-12 computer for only the first 4 h of sleep and involved a comparison over stages of sleep. Click-evoked K-complexes during NREM sleep were analyzed for 6 good sleepers and 11 poor sleepers. Repeated use of flurazepam caused a gradual decrease in delta amplitude and count, and a gradual increase in sleep spindle rate. The decrease in delta amplitude was seen in all sleep stages, but the decrease was significant only during SWS and stage 2. The decrease in delta amplitude was significant by the 3rd drug night, but the rate of amplitude decrease tended to slow with continued treatment. The decrease in delta count was less pronounced and more gradual over drug nights than the rate of decrease in amplitude. Flurazepam also significantly reduced evoked K-complex amplitude but did not affect latency. Sleep spindle rate was significantly increased by drug night 5. Results of this study indicate that the reduction of SWS with flurazepam during the initial drug nights is due primarily to the decrease in delta amplitude, but, with continued use, the decrease in delta count also contributes to the decrease in stage 4 sleep.