When performing bimanual tasks, hands are typically not controlled individually but rather as a coupled system to achieve high spatiotemporal coordination. On a brain level, intrahemispheric and interhemispheric networks that control the left and right hand are necessary to exchange information between hemispheres and to couple movements. Behaviourally, coupling is, however, highly task-specific requiring, for example, to maintain a specific relative phase in cyclic tasks (e.g., inphase or antiphase) or to perform a role differentiated task where one hand is modulating and the other hands is stabilizing and needs to be kept as still as possible (e.g., holding a notepad and writing on it). In this study, we used electroencephalography to investigate functional brain network characteristics (task-related activation and connectivity) in bimanual force-control tasks with different coordination modes: inphase, antiphase and role-differentiated with the left- or right-hand stabilizing and the other hand manipulating. We aimed to examine (1) how network characteristics differ with respect to the coordination mode and (2) how they are related to the performance. Results revealed task-related differences in the overall activation and connectivity with role-differentiated tasks leading to higher desynchronization as compared to inphase and antiphase tasks. In addition, we showed that the strength of bimanual coupling is modulated task specifically through left-hemispheric networks including C3, FC3 and F3 electrodes. Results highlight the importance of the left frontocentral regions for bimanual coordination.
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