Change of Brain Functional Connectivity in Patients With Spinal Cord Injury: Graph Theory Based Approachopen access
- Authors
- Min, Yu-Sun; Chang, Yongmin; Park, Jang Woo; Lee, Jong-Min; Cha, Jungho; Yang, Jin-Ju; Kim, Chul-Hyun; Hwang, Jong-Moon; Yoo, Ji-Na; Jung, Tae-Du
- Issue Date
- Jun-2015
- Publisher
- KOREAN ACAD REHABILITATION MEDICINE
- Keywords
- Spinal cord injuries; Magnetic resonance imaging; Neuronal plasticity
- Citation
- Annals of Rehabilitation Medicine, v.39, no.3, pp.374 - 383
- Indexed
- SCOPUS
KCI
- Journal Title
- Annals of Rehabilitation Medicine
- Volume
- 39
- Number
- 3
- Start Page
- 374
- End Page
- 383
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/157087
- DOI
- 10.5535/arm.2015.39.3.374
- ISSN
- 2234-0645
- Abstract
- Objective To investigate the global functional reorganization of the brain following spinal cord injury with graph theory based approach by creating whole brain functional connectivity networks from resting state-functional magnetic resonance imaging (rs-fMRI), characterizing the reorganization of these networks using graph theoretical metrics and to compare these metrics between patients with spinal cord injury (SCI) and age-matched controls.
Methods Twenty patients with incomplete cervical SCI (14 males, 6 females; age, 55 +/- 14.1 years) and 20 healthy subjects (10 males, 10 females; age, 52.9 +/- 13.6 years) participated in this study. To analyze the characteristics of the whole brain network constructed with functional connectivity using rs-fMRI, graph theoretical measures were calculated including clustering coefficient, characteristic path length, global efficiency and small-worldness.
Results Clustering coefficient, global efficiency and small-worldness did not show any difference between controls and SCIs in all density ranges. The normalized characteristic path length to random network was higher in SCI patients than in controls and reached statistical significance at 12%-13% of density (p<0.05, uncorrected).
Conclusion The graph theoretical approach in brain functional connectivity might be helpful to reveal the information processing after SCI. These findings imply that patients with SCI can build on preserved competent brain control. Further analyses, such as topological rearrangement and hub region identification, will be needed for better understanding of neuroplasticity in patients with SCI.
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