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Frontoparietal network activation is associated with motor recovery in ischemic stroke patients

Emily Olafson, Georgia Russello, Keith Jamison, Hesheng Liu, Danhong Wang, Joel Bruss, Aaron D. Boes, Amy Kuceyeski

2022Communications Biology33 citationsDOIOpen Access PDF

Abstract

Strokes cause lesions that damage brain tissue, disrupt normal brain activity patterns and can lead to impairments in motor function. Although modulation of cortical activity is central to stimulation-based rehabilitative therapies, aberrant and adaptive patterns of brain activity after stroke have not yet been fully characterized. Here, we apply a brain dynamics analysis approach to study longitudinal brain activity patterns in individuals with ischemic pontine stroke. We first found 4 commonly occurring brain states largely characterized by high amplitude activations in the visual, frontoparietal, default mode, and motor networks. Stroke subjects spent less time in the frontoparietal state compared to controls. For individuals with dominant-hand CST damage, more time spent in the frontoparietal state from 1 week to 3-6 months post-stroke was associated with better motor recovery over the same time period, an association which was independent of baseline impairment. Furthermore, the amount of time spent in brain states was linked empirically to functional connectivity. This work suggests that when the dominant-hand CST is compromised in stroke, resting state configurations may include increased activation of the frontoparietal network, which may facilitate compensatory neural pathways that support recovery of motor function when traditional motor circuits of the dominant-hemisphere are compromised.

Topics & Concepts

Stroke (engine)NeurosciencePhysical medicine and rehabilitationDefault mode networkPsychologyBrain activity and meditationBrain stimulationStroke recoverySupplementary motor areaMotor functionMedicineStimulationFunctional connectivityRehabilitationElectroencephalographyFunctional magnetic resonance imagingMechanical engineeringEngineeringFunctional Brain Connectivity StudiesEEG and Brain-Computer InterfacesNeural dynamics and brain function