Sleep consists of multiple stages: S1, S2, slow-wave-sleep (SWS), and rapid eye movement (REM). Do these stages serve complementary, different functions, or the same function but with different magnitudes? During non-REM (S1àS2àSWS), the brain signal progressively slows and becomes larger: Slow-wave oscillation (SWO: 0-1Hz) and signal in delta band (1-4Hz) in non-REM are the most unlike wake and are more prominent following sleep deprivation and during SWS [1,2]. Low-frequency power is thought to be an indicator of sleep need being met. Our studies, based on overnight, scored sleep data and brain signal from 5000+ subjects (8000+ nights) [3] suggest low-frequency power in S2 and in SWS and SWS duration, but not S2 duration, indicate sleep n...
Item does not contain fulltextIntroduction: In the two-process model of sleep regulation, slow-wave ...
STUDY OBJECTIVES: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
P>Studies on homeostatic aspects of sleep regulation have been focussed upon non-rapid eye movement ...
Sleep consists of two broad phases: rapid eye movement (REM), and non-REM sleep, and the deepest sta...
The regulation of the timing of sleep is thought to be linked to the temporal dynamics of slow-wave ...
Visually scored delta activity (stages 3 and 4, SWS) as well as computerized delta activity measures...
Slow waves (SWs, 0.5–4 Hz) in field potentials during sleep reflect synchronized alternations betwee...
What is the function of sleep in humans? One claim is that sleep consolidates learning. Slow wave ac...
During non-rapid eye movement (NREM) sleep, a global decrease in synaptic strength associated with s...
Background During non-rapid eye movement (NREM) sleep synchronous neural oscillations between neu...
Brain recovery after prolonged wakefulness is characterized by increased density, amplitude and slop...
BACKGROUND:During non-rapid eye movement (NREM) sleep synchronous neural oscillations between neural...
Previous studies in animals and humans have reported correlations between the durations of rapid eye...
Slow oscillations (< 1 Hz) in the non-rapid eye movement (NREM) sleep electroencephalogram (EEG) res...
Study Objectives: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
Item does not contain fulltextIntroduction: In the two-process model of sleep regulation, slow-wave ...
STUDY OBJECTIVES: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
P>Studies on homeostatic aspects of sleep regulation have been focussed upon non-rapid eye movement ...
Sleep consists of two broad phases: rapid eye movement (REM), and non-REM sleep, and the deepest sta...
The regulation of the timing of sleep is thought to be linked to the temporal dynamics of slow-wave ...
Visually scored delta activity (stages 3 and 4, SWS) as well as computerized delta activity measures...
Slow waves (SWs, 0.5–4 Hz) in field potentials during sleep reflect synchronized alternations betwee...
What is the function of sleep in humans? One claim is that sleep consolidates learning. Slow wave ac...
During non-rapid eye movement (NREM) sleep, a global decrease in synaptic strength associated with s...
Background During non-rapid eye movement (NREM) sleep synchronous neural oscillations between neu...
Brain recovery after prolonged wakefulness is characterized by increased density, amplitude and slop...
BACKGROUND:During non-rapid eye movement (NREM) sleep synchronous neural oscillations between neural...
Previous studies in animals and humans have reported correlations between the durations of rapid eye...
Slow oscillations (< 1 Hz) in the non-rapid eye movement (NREM) sleep electroencephalogram (EEG) res...
Study Objectives: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
Item does not contain fulltextIntroduction: In the two-process model of sleep regulation, slow-wave ...
STUDY OBJECTIVES: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
P>Studies on homeostatic aspects of sleep regulation have been focussed upon non-rapid eye movement ...