Publications by authors named "Julien Q M Ly"
Article Synopsis
- The study examines how electroencephalogram (EEG) response complexity changes during sleep deprivation and varying vigilance levels in younger and older individuals.
- It found that older adults had significantly higher EEG response complexity compared to younger adults, with changes in complexity observed throughout prolonged wakefulness.
- Interestingly, in the older group, higher response complexity correlated with poorer performance on vigilance tasks, particularly in the morning, highlighting age-related differences in brain function during sleep deprivation.
Pupil size informs about sympathovagal balance as well as cognitive and affective processes, and perception. It is also directly linked to phasic activity of the brainstem locus coeruleus, so that pupil measures have gained recent attention. Steady-state pupil size and its variability have been directly linked to sleep homeostasis and circadian phase, but results have been inconsistent.
View Article and Find Full Text PDFCortical excitability depends on sleep-wake regulation, is central to cognition, and has been implicated in age-related cognitive decline. The dynamics of cortical excitability during prolonged wakefulness in aging are unknown, however. Here, we repeatedly probed cortical excitability of the frontal cortex using transcranial magnetic stimulation and electroencephalography in 13 young and 12 older healthy participants during sleep deprivation.
View Article and Find Full Text PDFArticle Synopsis
- * The study investigated the brain's effective connectivity in the fronto-parietal cortex using EEG while healthy young men performed a vigilance task after being awake for extended periods.
- * Results showed that decreased effective connectivity in the fronto-parietal region correlated with poorer performance on vigilance tasks during the night, highlighting the negative impact of prolonged wakefulness on brain function.
Several neuropsychiatric and neurological disorders have recently been characterized as dysfunctions arising from a 'final common pathway' of imbalanced excitation to inhibition within cortical networks. How the regulation of a cortical E/I ratio is affected by sleep and the circadian rhythm however, remains to be established. Here we addressed this issue through the analyses of TMS-evoked responses recorded over a 29 h sleep deprivation protocol conducted in young and healthy volunteers.
View Article and Find Full Text PDFProlonged wakefulness alters cortical excitability, which is essential for proper brain function and cognition. However, besides prior wakefulness, brain function and cognition are also affected by circadian rhythmicity. Whether the regulation of cognition involves a circadian impact on cortical excitability is unknown.
View Article and Find Full Text PDFWe present a finite element modeling (FEM) implementation for solving the forward problem in electroencephalography (EEG). The solution is based on Helmholtz's principle of reciprocity which allows for dramatically reduced computational time when constructing the leadfield matrix. The approach was validated using a 4-shell spherical model and shown to perform comparably with two current state-of-the-art alternatives (OpenMEEG for boundary element modeling and SimBio for finite element modeling).
View Article and Find Full Text PDFLight is a powerful stimulant for human alertness and cognition, presumably acting through a photoreception system that heavily relies on the photopigment melanopsin. In humans, evidence for melanopsin involvement in light-driven cognitive stimulation remains indirect, due to the difficulty to selectively isolate its contribution. Therefore, a role for melanopsin in human cognitive regulation remains to be established.
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