Add to ORKGAt any point in time, human performance results from the interaction of two main factors: a circadian signal varying with the time of the day and the sleep need accrued throughout the preceding waking period. But what’s happen at the cortical cerebral level? We used a novel technique coupling transcranial magnetic stimulation with electroencephalography (TMS/EEG) to assess the influence of time spent awake and circadian phasis on human cortical excitability. Twenty-two healthy young men underwent 8 TMS/EEG sessions during a 28 hour sleep deprivation protocole. We found that cortical excitability depends on both time spent awake and circadian phasis
peer reviewedIntroduction/Motivation: Cortical excitability is modulated both by conscious states, ...
Background: Changes of cortical excitability after sleep deprivation (SD) in humans have been invest...
Study Objective: Sleep deprivation (SD) is known to facilitate both seizures and interictal epilepti...
At any point in time, human performance results from the interaction of two main factors: a circadia...
At any point in time, human performance results from the interaction of two main factors: a circadia...
Prolonged wakefulness is associated not only with obvious changes in the way we feel and perform but...
Prolonged wakefulness alters cortical excitability, which is essential for proper brain function and...
Prolonged wakefulness is associated not only with obvious changes in the way we feel and perform but...
Transcranial magnetic stimulation is used to non-invasively stimulate parts of the brain. A stimulus...
Several neuropsychiatric and neurological disorders have recently been characterized as dysfunctions...
The effect of sleep on human motor cortical excitability was investigated by evaluating the latency ...
The mechanisms responsible for changes in brain function during normal sleep are poorly understood. ...
The mechanisms responsible for changes in brain function during normal sleep are poorly understood. ...
The effect of sleep on human motor cortical excitability was investigated by evaluating the latency ...
Changes of cortical and corticospinal excitability, as a function of sleep deprivation have been stu...
peer reviewedIntroduction/Motivation: Cortical excitability is modulated both by conscious states, ...
Background: Changes of cortical excitability after sleep deprivation (SD) in humans have been invest...
Study Objective: Sleep deprivation (SD) is known to facilitate both seizures and interictal epilepti...
At any point in time, human performance results from the interaction of two main factors: a circadia...
At any point in time, human performance results from the interaction of two main factors: a circadia...
Prolonged wakefulness is associated not only with obvious changes in the way we feel and perform but...
Prolonged wakefulness alters cortical excitability, which is essential for proper brain function and...
Prolonged wakefulness is associated not only with obvious changes in the way we feel and perform but...
Transcranial magnetic stimulation is used to non-invasively stimulate parts of the brain. A stimulus...
Several neuropsychiatric and neurological disorders have recently been characterized as dysfunctions...
The effect of sleep on human motor cortical excitability was investigated by evaluating the latency ...
The mechanisms responsible for changes in brain function during normal sleep are poorly understood. ...
The mechanisms responsible for changes in brain function during normal sleep are poorly understood. ...
The effect of sleep on human motor cortical excitability was investigated by evaluating the latency ...
Changes of cortical and corticospinal excitability, as a function of sleep deprivation have been stu...
peer reviewedIntroduction/Motivation: Cortical excitability is modulated both by conscious states, ...
Background: Changes of cortical excitability after sleep deprivation (SD) in humans have been invest...
Study Objective: Sleep deprivation (SD) is known to facilitate both seizures and interictal epilepti...