Successful working memory (WM) requires the engagement of relevant brain areas but possibly also the disengagement of irrelevant areas. We used magnetoencephalography (MEG) to elucidate the temporal dynamics of areas involved in a somatosensory WM task. We found an increase in gamma band activity in the primary and secondary somatosensory areas during encoding and retention, respectively. This was accompanied by an increase of alpha band activity over task-irrelevant regions including posterior and ipsilateral somatosensory cortex. Importantly, the alpha band increase was strongest during successful WM performance. Furthermore, we found frontal gamma band activity that correlated both with behavioral performance and the alpha band increase....
Previous studies have demonstrated task-related changes in brain activation and inter-regional conne...
Contains fulltext : 36298.pdf (publisher's version ) (Closed access)The role of os...
Visuospatial working memory (WM) is a fundamental but severely limited ability to temporarily rememb...
Previous studies in electrophysiology have provided consistent evidence for a relationship between n...
Previous studies in electrophysiology have provided consistent evidence for a relationship between n...
Contains fulltext : 174114.pdf (publisher's version ) (Open Access)Flexible contro...
Working memory (WM) represents the brain’s ability to maintain information in a readily available st...
Ample evidence suggests that oscillations in the beta band represent quantitative information about ...
Ample evidence suggests that oscillations in the beta band represent quantitative information about ...
Previous studies have shown that different frequency band oscillations are associated with cognitive...
Flexible control over currently relevant sensory representations is an essential feature of primate ...
Several studies show that the amplitudes of human brain oscillations are modulated during the perfor...
Numerous studies have revealed various working memory (WM)-related brain activities that originate f...
Several studies show that the amplitudes of human brain oscillations are modulated during the perfor...
r r Abstract: Despite significant advances in understanding how brain networks support working mem-o...
Previous studies have demonstrated task-related changes in brain activation and inter-regional conne...
Contains fulltext : 36298.pdf (publisher's version ) (Closed access)The role of os...
Visuospatial working memory (WM) is a fundamental but severely limited ability to temporarily rememb...
Previous studies in electrophysiology have provided consistent evidence for a relationship between n...
Previous studies in electrophysiology have provided consistent evidence for a relationship between n...
Contains fulltext : 174114.pdf (publisher's version ) (Open Access)Flexible contro...
Working memory (WM) represents the brain’s ability to maintain information in a readily available st...
Ample evidence suggests that oscillations in the beta band represent quantitative information about ...
Ample evidence suggests that oscillations in the beta band represent quantitative information about ...
Previous studies have shown that different frequency band oscillations are associated with cognitive...
Flexible control over currently relevant sensory representations is an essential feature of primate ...
Several studies show that the amplitudes of human brain oscillations are modulated during the perfor...
Numerous studies have revealed various working memory (WM)-related brain activities that originate f...
Several studies show that the amplitudes of human brain oscillations are modulated during the perfor...
r r Abstract: Despite significant advances in understanding how brain networks support working mem-o...
Previous studies have demonstrated task-related changes in brain activation and inter-regional conne...
Contains fulltext : 36298.pdf (publisher's version ) (Closed access)The role of os...
Visuospatial working memory (WM) is a fundamental but severely limited ability to temporarily rememb...