A neural signature for brain compensation in stroke with EEG and TMS: Insights from the DEFINE cohort study - 06/07/24
Abstract |
Objective |
This study aimed to explore the relationships between potential neurophysiological biomarkers and upper limb motor function recovery in stroke patients, specifically focusing on combining two neurophysiological markers: electroencephalography (EEG) and transcranial magnetic stimulation (TMS).
Methods |
This cross-sectional study analyzed neurophysiological, clinical, and demographical data from 102 stroke patients from the DEFINE cohort. We searched for correlations of EEG and TMS measurements combined to build a prediction model for upper limb motor functionality, assessed by five outcomes, across five assessments: Fugl-Meyer Assessment (FMA), Handgrip Strength Test (HST), Finger Tapping Test (FTT), Nine-Hole Peg Test (9HPT), and Pinch Strength Test (PST).
Results |
Our multivariate models agreed on a specific neural signature: higher EEG Theta/Alpha ratio in the frontal region of the lesioned hemisphere is associated with poorer motor outcomes, while increased MEP amplitude in the non-lesioned hemisphere correlates with improved motor function. These relationships are held across all five motor assessments, suggesting the potential of these neurophysiological measures as recovery biomarkers.
Conclusion |
Our findings indicate a potential neural signature of brain compensation in which lower frequencies of EEG power are increased in the lesioned hemisphere, and lower corticospinal excitability is also increased in the non-lesioned hemisphere. We discuss the meaning of these findings in the context of motor recovery in stroke.
El texto completo de este artículo está disponible en PDF.Keywords : Stroke, Neuromodulation, Neuroplasticity, TMS, Transcranial magnetic stimulation, EEG, Electroencephalography, Motor, Recovery, Neural signature, Fugl-Meyer, Handgrip, Finger Tapping, Nine-Hole Peg Test, Pinching, Theta/Alpha ratio, Theta/Alpha oscillations, Theta oscillation, Alpha oscillation
Esquema
Vol 54 - N° 5
Artículo 102985- septembre 2024 Regresar al número
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