Sleep spindles are similar to 1-second bursts of 10-15 Hz activity, occurring during normal stage 2 sleep. In animals, sleep spindles can be synchronous across multiple cortical and thalamic locations, suggesting a distributed stable phase-locked generating system. The high synchrony of spindles across scalp EEG sites suggests that this may also be true in humans. However, prior MEG studies suggest multiple and varying generators . Methodology/Principal Findings: We recorded 306 channels of MEG simultaneously with 60 channels of EEG during naturally occurring spindles of stage 2 sleep in 7 healthy subjects. High-resolution structural MRI was obtained in each subject, to define the shells for a boundary element forward solution and to recons...
In humans, sleep spindles are 10- to 16-Hz oscillations lasting approximately 0.5-2 s. Spindles, alo...
Objective: to determine whether temporal epileptic patients and normal volunteers display similar sl...
In humans, some evidence suggests that there are two different types of spindles during sleep, which...
BackgroundSleep spindles are approximately 1-second bursts of 10-15 Hz activity, occurring during no...
Background: Sleep spindles are ∼1-second bursts of 10–15 Hz activity, occurring during normal stage ...
Dehghani N, Cash SS, Rossetti AO, Chen CC, Halgren E. Magnetoencephalography demonstrates multiple a...
Sleep spindles are approximately 1 s bursts of 10-16 Hz activity that occur during stage 2 sleep. Sp...
Sleep spindles are a cardinal feature in human NREM sleep and may be important for memory consolidat...
To identify and compare cortical source generators of slow and fast sleep spindles in healthy subjec...
Sleep spindles (8 - 16 Hz) are transient electrophysiological events during non-rapid eye movement s...
Sleep spindles are brief oscillatory events during non-rapid eye movement (NREM) sleep. Spindle dens...
Sleep spindles are bursts of 11–15 Hz that occur during non-rapid eye movement sleep. Spindles are h...
Sleep spindles are a cardinal feature in human NREM sleep and may be important for memory consolidat...
BackgroundAlthough they form a unitary phenomenon, the relationship between extracranial M/EEG and t...
Since their discovery almost one century ago, sleep spindles, 0.5-2s long bursts of oscillatory acti...
In humans, sleep spindles are 10- to 16-Hz oscillations lasting approximately 0.5-2 s. Spindles, alo...
Objective: to determine whether temporal epileptic patients and normal volunteers display similar sl...
In humans, some evidence suggests that there are two different types of spindles during sleep, which...
BackgroundSleep spindles are approximately 1-second bursts of 10-15 Hz activity, occurring during no...
Background: Sleep spindles are ∼1-second bursts of 10–15 Hz activity, occurring during normal stage ...
Dehghani N, Cash SS, Rossetti AO, Chen CC, Halgren E. Magnetoencephalography demonstrates multiple a...
Sleep spindles are approximately 1 s bursts of 10-16 Hz activity that occur during stage 2 sleep. Sp...
Sleep spindles are a cardinal feature in human NREM sleep and may be important for memory consolidat...
To identify and compare cortical source generators of slow and fast sleep spindles in healthy subjec...
Sleep spindles (8 - 16 Hz) are transient electrophysiological events during non-rapid eye movement s...
Sleep spindles are brief oscillatory events during non-rapid eye movement (NREM) sleep. Spindle dens...
Sleep spindles are bursts of 11–15 Hz that occur during non-rapid eye movement sleep. Spindles are h...
Sleep spindles are a cardinal feature in human NREM sleep and may be important for memory consolidat...
BackgroundAlthough they form a unitary phenomenon, the relationship between extracranial M/EEG and t...
Since their discovery almost one century ago, sleep spindles, 0.5-2s long bursts of oscillatory acti...
In humans, sleep spindles are 10- to 16-Hz oscillations lasting approximately 0.5-2 s. Spindles, alo...
Objective: to determine whether temporal epileptic patients and normal volunteers display similar sl...
In humans, some evidence suggests that there are two different types of spindles during sleep, which...