Roles of beta synchronization for motor skill acquisition change after stroke
Lena S Timmsen, Benjamin Haverland, Silke Wolf, Charlotte J Stagg, Jan Feldheim, The Vinh Luu, Robert Schulz, Till R Schneider, Fanny Quandt, Bettina C Schwab

TL;DR
Stroke survivors can still learn new motor skills, but the brain activity patterns involved differ from those in healthy individuals.
Contribution
The study reveals altered neural mechanisms of motor skill acquisition in stroke survivors compared to healthy controls.
Findings
Stroke survivors showed similar motor skill acquisition capacity as healthy controls despite lower task performance.
Healthy individuals exhibited positive beta ERS in sensorimotor areas, while stroke survivors showed a trend toward negative association.
Manual dexterity, measured by the Box and Block Test, moderated the relationship between beta ERS and skill acquisition.
Abstract
Beta event-related synchronization (ERS) following movement has been associated with motor skill acquisition in healthy individuals, yet its role in stroke recovery remains unclear. Given the prevalence of motor impairments after stroke, understanding how beta ERS relates to motor skill acquisition in this population is of significant clinical relevance, especially in view of emerging opportunities for neuromodulation. In this cohort study, we investigated whole-brain beta ERS during a feedback-guided motor skill acquisition task using magnetoencephalography (MEG) in 14 well-recovered stroke survivors in the chronic phase and 15 age-eligible healthy control participants. Motor ability was assessed with standardized clinical scales, and structural brain metrics were derived from magnetic resonance imaging. MEG data were projected into source space to enable comprehensive cluster-based…
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Taxonomy
TopicsMotor Control and Adaptation · EEG and Brain-Computer Interfaces · Transcranial Magnetic Stimulation Studies
