Manipulating REM sleep in older adults by selective REM sleep deprivation and physiological as well as pharmacological REM sleep augmentation methods

Experimental approaches to manipulate REM sleep within the cognitive neuroscience of sleep are usually based on sleep deprivation paradigms and focus on younger adults. In the present study, a traditional selective REM sleep deprivation paradigm as well as two alternative manipulation paradigms targeting REM sleep augmentation were investigated in healthy older adults. The study sample consisted of 107 participants, male and female, between the ages of 60 and 82 years, who had been randomly assigned to five experimental groups. During the study night, a first group was deprived of REM sleep by selective REM sleep awakenings, while a second group was woken during stage 2 NREM sleep in matched frequency. Physiological REM sleep augmentation was realized by REM sleep rebound after selective REM sleep deprivation, pharmacological REM sleep augmentation by administering an acetyleholinesterase inhibitor in a double-blind, placebo-controlled design. Deprivation and augmentation paradigms manipulated REM sleep significantly, the former affecting more global measures such as REM sleep minutes and percentage, the latter more organizational aspects such as stage shifts to REM sleep, REM latency, REM density (only pharmacological augmentation) and phasic REM sleep duration. According to our findings, selective REM sleep deprivation seems to be an efficient method of REM sleep manipulation in healthy older adults. While physiological rebound-based and pharmacological cholinergic REM sleep augmentation methods both failed to affect global measures of REM sleep, their efficiency in manipulating organizational aspects of REM sleep extends the traditional scope of REM sleep manipulation methods within the cognitive neuroscience of sleep. (c) 2005 Elsevier Inc. All rights reserved.