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Brain–Machine Interface-Driven Post-Stroke Upper-Limb Functional Recovery Correlates With Beta-Band Mediated Cortical Networks

Dheeraj Rathee, Anirban Chowdhury, Yogesh Kumar Meena, Ashish Dutta, Suzanne McDonough, Girijesh Prasad

IEEE Transactions on Neural Systems and Rehabilitation Engineering, Volume: 27, Issue: 5, Pages: 1020 - 1031

Swansea University Author: Yogesh Kumar Meena

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DOI (Published version): 10.1109/TNSRE.2019.2908125

Abstract

Brain-machine interface (BMI) driven robot-assisted neurorehabilitation intervention has demonstrated improvement in upper-limb (UL) motor function, specifically, with post-stroke hemiparetic patients. However, neurophysiological patterns related to such interventions are not well understood. This s...

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Published in: IEEE Transactions on Neural Systems and Rehabilitation Engineering
ISSN: 1534-4320 1558-0210
Published: 2019
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URI: https://cronfa.swan.ac.uk/Record/cronfa50561
Abstract: Brain-machine interface (BMI) driven robot-assisted neurorehabilitation intervention has demonstrated improvement in upper-limb (UL) motor function, specifically, with post-stroke hemiparetic patients. However, neurophysiological patterns related to such interventions are not well understood. This study examined the longitudinal changes in band-limited resting-state (RS) functional connectivity (FC) networks in association with post-stroke UL functional recovery achieved by a multimodal intervention involving motor attempt (MA) based BMI and robotic hand-exoskeleton. Four adults were rehabilitated with the intervention for a period lasting upto 6 weeks. RS magnetoencephalography (MEG) signals, Action Research Arm Test (ARAT), and grip strength (GS) measures were recorded at five equispaced sessions over the intervention period. An average post-interventional increase of 100.0% (p = 0:00028) and 88.0% were attained for ARAT and GS, respectively. A cluster-based statistical test involving correlation estimates between beta-band (15-26 Hz) RS-MEG FCs and UL functional recovery provided positively correlated sub-networks in both contralesional and ipsilesional motor cortices. The fronto-parietal FC exhibited hemispheric lateralisation wherein majority of the positively and negatively correlated connections were found in contralesional and ipsilesional hemispheres, respectively. Our findings are consistent with the theory of bilateral motor cortical association with UL recovery and predict novel FC patterns that can be important for higher level cognitive functions.
Keywords: Hand neurorehabilitation, Functional brain networks, Magnetoencephalography, Motor attempt, Braincomputer interface, Hand-exoskeleton
College: Faculty of Science and Engineering
Issue: 5
Start Page: 1020
End Page: 1031

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