Event-related Brain Potentials to Changes in the Acoustic Environment During Sleep and Sleepiness |
Contents
GENERAL INTRODUCTION | 11 |
OBJECTIVES OF THE STUDY | 29 |
STUDY II | 40 |
Copyright | |
4 other sections not shown
Common terms and phrases
activity addition alertness Alho amplitude analysis appearance associated attenuation auditory authors Bastien Bastuji behavioural responsiveness brain Campbell channels cognitive compared complex component considered containing decreased defined detected determine deviant stimulus difference distribution dream drowsiness early effect Electroencephalography and Clinical elicitation environment ERPs et al event-related potentials evidence examined experiment external events external stimuli finding function Grand-average Harsh human hypothesis impairment increased indicate input K-complex KC trials large deviant tone latency latency range measures mismatch negativity MMN response MMN-like deflection Näätänen NREM objective observed occurred Paavilainen periods phasic REM sleep pitch change possible potentials preceding presented probability Psychophysiology reached recording Reinikainen reliable reported Research Sams scores showed shown significance sleep stage small deviant tone stage 2 sleep standard tone stimulus change stimulus processing studies subjects suggests tonic REM sleep transition visual wakefulness wave