Evoked slow oscillations and dynamic network reorganization after stroke
Caroline Tscherpel, Maike Mustin, Nils Rosjat, Lea-Theresa Mais, Ulf Ziemann, Gereon R Fink, Silvia Daun, Christian Grefkes

TL;DR
This study shows how stroke affects brain networks and how recovery is linked to the normalization of brain activity patterns.
Contribution
The study links early post-stroke low-frequency brain coupling and network disruption to long-term motor outcomes.
Findings
Increased delta band coupling between frontocentral and parietal regions is linked to altered neural processing after stroke.
Early disruption of small-worldness and modularity in brain networks predicts later motor outcomes.
Recovery of motor function correlates with normalization of low-frequency coupling and network topology.
Abstract
A focal ischemic lesion is thought to alter neuronal activity beyond the area of structural damage, thereby interfering with the whole network architecture. Here, we used a combination of transcranial magnetic stimulation and electroencephalography in conjunction with dynamic connectivity analyses and graph theory to study alterations and reorganization of cortical connectivity in a cohort of 41 patients longitudinally after stroke. We found a link between an increase in low-frequency coupling in the delta band and alterations in neural information processing in the first weeks after stroke and their relevance for motor outcome >3 months later. We demonstrated that stroke enhances slow activity and delta coupling between frontocentral and parietal regions. In addition, we observed a loss of the physiological network architecture with a decrease in small-worldness and modularity in the…
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Taxonomy
TopicsFunctional Brain Connectivity Studies · Neural dynamics and brain function · Nonlinear Dynamics and Pattern Formation
