Dynamic corticomuscular multi-regional modulations during finger movement revealed by time-varying network analysis

Abstract: Objective. A body movement involves the complicated information exchange between the central and peripheral systems, which is characterized by the dynamical coupling patterns between the multiple brain areas and multiple muscle units. How the central and peripheral nerves coordinate multiple internal brain regions and muscle groups is very important when accomplishing the action. Approach. In this study, we extend the adaptive directed transfer function to construct the time-varying networks between multiple c… Show more

“…Movement-related cortical potentials (MRCPs) shape BCI design [11] [12]. Iturrate et al differentiated power and precision grips within EEG signals [14]. Enhanced alpha oscillations possibly indicate more top-down control, reflecting finer motor precision [13].…”

Cortical Contributions to Imagined Power Grip Task: An EEG-Triggered TMS Study

“…Movement-related cortical potentials (MRCPs) shape BCI design [11] [12]. Iturrate et al differentiated power and precision grips within EEG signals [14]. Enhanced alpha oscillations possibly indicate more top-down control, reflecting finer motor precision [13].…”

Cortical Contributions to Imagined Power Grip Task: An EEG-Triggered TMS Study

Cueing effect of attention among nurses with different anxiety levels: an EEG study

Within and between electrophysiology networks for EEG and EMG under different thumb forces