Effects of mnemonic load on cortical activity during visual working memory: Linking ongoing brain activity with evoked responses

The mechanisms generating task-locked changes in cortical potentials remain poorly understood, despite a wealth of research. It has recently been proposed that ongoing brain oscillations are not symmetric, so that task-related amplitude modulations generate a baseline shift that does not average out...

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Bibliographic Details
Published in:International journal of psychophysiology 2013-09, Vol.89 (3), p.409-418
Main Authors: Boonstra, Tjeerd W., Powell, Tamara Y., Mehrkanoon, Saeid, Breakspear, Michael
Format: Article
Language:English
Subjects:
Adult
Alpha oscillations
Brain
Brain Mapping
Cerebral Cortex - physiology
Electroencephalography
Event-related potential
Evoked Potentials - physiology
Female
Humans
Male
Memory, Short-Term - physiology
Multivariate Analysis
Partial least squares
Photic Stimulation
Reaction Time
Theta oscillations
Time Factors
Visual working memory
Young Adult
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Summary:The mechanisms generating task-locked changes in cortical potentials remain poorly understood, despite a wealth of research. It has recently been proposed that ongoing brain oscillations are not symmetric, so that task-related amplitude modulations generate a baseline shift that does not average out, leading to slow event-related potentials. We test this hypothesis using multivariate methods to formally assess the co-variation between task-related evoked potentials and spectral changes in scalp EEG during a visual working memory task, which is known to elicit both evoked and sustained cortical activities across broadly distributed cortical regions. 64-channel EEG data were acquired from eight healthy human subjects who completed a visuo-spatial associative working memory task as memory load was parametrically increased from easy to hard. As anticipated, evoked activity showed a complex but robust spatio-temporal waveform maximally expressed bilaterally in the parieto-occipital and anterior midline regions, showing robust effects of memory load that were specific to the stage of the working memory trial. Similarly, memory load was associated with robust spectral changes in the theta and alpha range, throughout encoding in posterior regions and through maintenance and retrieval in anterior regions, consistent with the additional resources required for decision making in prefrontal cortex. Analysis of the relationship between event-related changes in slow potentials and cortical rhythms, using partial least squares, is indeed consistent with the notion that the former make a causal contribution to the latter. •Event-related EEG activity was modulated by varying visual working memory load.•Multivariate analysis was used to examine co-variations between ERPs and ERS/ERD.•Alpha ERD co-varied with sustained event-related potentials over parietal cortex.•These co-variations are consistent with notion of asymmetric amplitude modulations.
ISSN:0167-8760
1872-7697
DOI:10.1016/j.ijpsycho.2013.04.001