PT - JOURNAL ARTICLE AU - Yuri G. Pavlov AU - Boris Kotchoubey TI - EEG correlates of working memory performance in females AID - 10.1101/098301 DP - 2017 Jan 01 TA - bioRxiv PG - 098301 4099 - http://biorxiv.org/content/early/2017/01/04/098301.short 4100 - http://biorxiv.org/content/early/2017/01/04/098301.full AB - Background The study investigates oscillatory brain activity during working memory (WM) tasks. The tasks employed varied in two dimensions. First, they differed in complexity from average to highly demanding. Second, we used two types of tasks, which required either only retention of stimulus set or retention and manipulation of the content. We expected to reveal EEG correlates of temporary storage and central executive components of WM and to assess their contribution to individual differences.Results Generally, as compared with the retention condition, manipulation of stimuli in WM was associated with distributed suppression of alpha1 activity and with the increase of the midline theta activity. Load and task dependent decrement of beta1 power was found during task performance. Beta2 power increased with the increasing WM load and did not significantly depend on the type of the task.At the level of individual differences, we found that the high performance (HP) group was characterized by higher alpha rhythm power. The HP group demonstrated task-related increment of theta power in the left anterior area and a gradual increase of theta power at midline area. In contrast, the low performance (LP) group exhibited a drop of theta power in the most challenging condition. HP group was also characterized by stronger desynchronization of beta1 rhythm over the left posterior area in the manipulation condition. In this condition, beta2 power increased in the HP group over anterior areas, but in the LP group over posterior areas.Conclusions WM performance is accompanied by changes in EEG in a broad frequency range from theta to higher beta bands. The most pronounced differences in oscillatory activity between individuals with high and low WM performance can be observed in the most challenging WM task.WMworking memoryHPhigh performanceLPlow performancetACStranscranial alternating current stimulationFMTfrontal midline theta rhythmEEGelectroencephalographyEOGelectrooculographyIAFindividual alpha frequencyFFTfast Fourier transformationICAindependent component analysisROIregion of interestSEMstandard error of the meanIFGinferior frontal gyrusfMRIfunctional magnetic resonance imagingACCanterior cingulate cortexIQintelligence quotientANOVAanalysis of variance