The slow waves of non-rapid eye movement (NREM) sleep reflect experience-dependent plasticity and play a direct role in the restorative functions of sleep. Importantly, slow waves behave as traveling waves, and their propagation is assumed to occur through cortico-cortical white matter connections. In this light, the corpus callosum (CC) may represent the main responsible for cross-hemispheric slow-wave propagation. To verify this hypothesis, we performed overnight high-density (hd)-EEG recordings in five patients who underwent total callosotomy due to drug-resistant epilepsy (CPs; two females), in three noncallosotomized neurologic patients (NPs; two females), and in a sample of 24 healthy adult subjects (HSs; 13 females). In all CPs slow ...
Sleep slow waves are the main phenomenon underlying NREM sleep. They are homeostatically regulated, ...
The most prominent EEG events in sleep are slow waves, reflecting a slow (<1 Hz) oscillation between...
Study Objectives: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
The slow waves of NREM-sleep reflect experience-dependent plasticity and play a direct role in the r...
Sleep spindles of non-REM sleep are transient, waxing-and-waning 10-16 Hz EEG oscillations, whose co...
Sleep spindles of non-REM sleep are transient, waxing-and-waning 10-16 Hz EEG oscillations, whose co...
Sleep studies often observe differences in slow wave activity (SWA) during non-rapid eye movement sl...
Topographic differences in the sleep EEG have been repeatedly found in humans and rodents. A frontal...
EEG slow waves, the hallmarks of NREM sleep are thought to be crucial for the regulation of several ...
EEG slow waves, the hallmarks of NREM sleep are thought to be crucial for the regulation of several ...
SummaryThe most prominent EEG events in sleep are slow waves, reflecting a slow (<1 Hz) oscillation ...
Sleep is a behavior commonly observed in a large number of animal species. However, neuroscientists ...
Cortical electrical activity during nonrapid eye movement (non-REM) sleep is dominated by slow-wave ...
STUDY OBJECTIVES: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
During much of sleep, virtually all cortical neurons undergo a slow oscillation (<1 Hz) in membrane ...
Sleep slow waves are the main phenomenon underlying NREM sleep. They are homeostatically regulated, ...
The most prominent EEG events in sleep are slow waves, reflecting a slow (<1 Hz) oscillation between...
Study Objectives: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
The slow waves of NREM-sleep reflect experience-dependent plasticity and play a direct role in the r...
Sleep spindles of non-REM sleep are transient, waxing-and-waning 10-16 Hz EEG oscillations, whose co...
Sleep spindles of non-REM sleep are transient, waxing-and-waning 10-16 Hz EEG oscillations, whose co...
Sleep studies often observe differences in slow wave activity (SWA) during non-rapid eye movement sl...
Topographic differences in the sleep EEG have been repeatedly found in humans and rodents. A frontal...
EEG slow waves, the hallmarks of NREM sleep are thought to be crucial for the regulation of several ...
EEG slow waves, the hallmarks of NREM sleep are thought to be crucial for the regulation of several ...
SummaryThe most prominent EEG events in sleep are slow waves, reflecting a slow (<1 Hz) oscillation ...
Sleep is a behavior commonly observed in a large number of animal species. However, neuroscientists ...
Cortical electrical activity during nonrapid eye movement (non-REM) sleep is dominated by slow-wave ...
STUDY OBJECTIVES: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...
During much of sleep, virtually all cortical neurons undergo a slow oscillation (<1 Hz) in membrane ...
Sleep slow waves are the main phenomenon underlying NREM sleep. They are homeostatically regulated, ...
The most prominent EEG events in sleep are slow waves, reflecting a slow (<1 Hz) oscillation between...
Study Objectives: The mechanisms responsible for the homeostatic decrease of slow-wave activity (SWA...