Frontiers in Neuroscience (Nov 2018)

Evaluation of Changes in the Motor Network Following BCI Therapy Based on Graph Theory Analysis

  • Mohsen Mazrooyisebdani,
  • Mohsen Mazrooyisebdani,
  • Veena A. Nair,
  • Po-Ling Loh,
  • Po-Ling Loh,
  • Alexander B. Remsik,
  • Alexander B. Remsik,
  • Brittany M. Young,
  • Brittany M. Young,
  • Brittany M. Young,
  • Brittany S. Moreno,
  • Keith C. Dodd,
  • Theresa J. Kang,
  • Justin C. William,
  • Justin C. William,
  • Vivek Prabhakaran,
  • Vivek Prabhakaran,
  • Vivek Prabhakaran

DOI
https://doi.org/10.3389/fnins.2018.00861
Journal volume & issue
Vol. 12

Abstract

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Despite the established effectiveness of the brain-computer interface (BCI) therapy during stroke rehabilitation (Song et al., 2014a, 2015; Young et al., 2014a,b,c, 2015; Remsik et al., 2016), little is understood about the connections between motor network reorganization and functional motor improvements. The aim of this study was to investigate changes in the network reorganization of the motor cortex during BCI therapy. Graph theoretical approaches are used on resting-state functional magnetic resonance imaging (fMRI) data acquired from stroke patients to evaluate these changes. Correlations between changes in graph measurements and behavioral measurements were also examined. Right hemisphere chronic stroke patients (average time from stroke onset = 38.23 months, standard deviation (SD) = 46.27 months, n = 13, 6 males, 10 right-handed) with upper-extremity motor deficits received interventional rehabilitation therapy using a closed-loop neurofeedback BCI device. Eyes-closed resting-state fMRI (rs-fMRI) scans, along with T-1 weighted anatomical scans on 3.0T MRI scanners were collected from these patients at four test points. Immediate therapeutic effects were investigated by comparing pre and post-therapy results. Results displayed that th average clustering coefficient of the motor network increased significantly from pre to post-therapy. Furthermore, increased regional centrality of ipsilesional primary motor area (p = 0.02) and decreases in regional centrality of contralesional thalamus (p = 0.05), basal ganglia (p = 0.05 in betweenness centrality analysis and p = 0.03 for degree centrality), and dentate nucleus (p = 0.03) were observed (uncorrected). These findings suggest an overall trend toward significance in terms of involvement of these regions. Increased centrality of primary motor area may indicate increased efficiency within its interactive network as an effect of BCI therapy. Notably, changes in centrality of the bilateral cerebellum regions have strong correlations with both clinical variables [the Action Research Arm Test (ARAT), and the Nine-Hole Peg Test (9-HPT)]

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