Brain Activation Evoked by Sensory Stimulation in Patients with Spinal Cord Injury : Functional Magnetic Resonance Imaging Correlations with Clinical Features |
Lee, Jun Ki
(Department of Neurosurgery, College of Medicine, Inha University)
Oh, Chang Hyun (Department of Neurosurgery, Guro Cham Teun Teun Hospital) Kim, Ji Yong (Department of Neurosurgery, College of Medicine, Inha University) Park, Hyung-Chun (Department of Neurosurgery, College of Medicine, Inha University) Yoon, Seung Hwan (Department of Neurosurgery, College of Medicine, Inha University) |
1 | Curt A, Bruehlmeier M, Leenders KL, Roelcke U, Dietz V : Differential effect of spinal cord injury and functional impairment on human brain activation. J Neurotrauma 19 : 43-51, 2002 DOI |
2 | Duggal N, Rabin D, Bartha R, Barry RL, Gati JS, Kowalczyk I, et al. : Brain reorganization in patients with spinal cord compression evaluated using fMRI. Neurology 74 : 1048-1054, 2010 DOI |
3 | Freund P, Weiskopf N, Ashburner J, Wolf K, Sutter R, Altmann DR, et al. : MRI investigation of the sensorimotor cortex and the corticospinal tract after acute spinal cord injury : a prospective longitudinal study. Lancet Neurol 12 : 873-881, 2013 DOI |
4 | Haanpaa M, Attal N, Backonja M, Baron R, Bennett M, Bouhassira D, et al. : NeuPSIG guidelines on neuropathic pain assessment. Pain 152 : 14-27, 2011 DOI |
5 | Henwood P, Ellis JA : Chronic neuropathic pain in spinal cord injury : the patient's perspective. Pain Res Manag 9 : 39-45, 2004 DOI |
6 | Jacobs SR, Yeaney NK, Herbison GJ, Ditunno JF Jr : Future ambulation prognosis as predicted by somatosensory evoked potentials in motor complete and incomplete quadriplegia. Arch Phys Med Rehabil 76 : 635-641, 1995 DOI |
7 | Lotze M, Laubis-Herrmann U, Topka H, Erb M, Grodd W : Reorganization in the primary motor cortex after spinal cord injury - a functional Magnetic Resonance (fMRI) study. Restor Neurol Neurosci 14 : 183-187, 1999 |
8 | Masri R, Keller A : Chronic pain following spinal cord injury. Adv Exp Med Biol 760 : 74-88, 2012 |
9 | McDonald JW, Becker D, Holekamp TF, Howard M, Liu S, Lu A, et al. : Repair of the injured spinal cord and the potential of embryonic stem cell transplantation. J Neurotrauma 21 : 383-393, 2004 DOI |
10 | Rocca MA, Agosta F, Martinelli V, Falini A, Comi G, Filippi M : The level of spinal cord involvement influences the pattern of movement-associated cortical recruitment in patients with isolated myelitis. Neuroimage 30 : 879-884, 2006 DOI |
11 | Weaver KE, Richardson AG : Medial prefrontal cortex, secondary hyperalgesia, and the default mode network. J Neurosci 29 : 11424-11425, 2009 DOI |
12 | Weiskopf N : Real-time fMRI and its application to neurofeedback. Neuroimage 62 : 682-692, 2012 DOI |
13 | Jung JK, Oh CH, Yoon SH, Ha Y, Park S, Choi B : Outcome evaluation with signal activation of functional MRI in spinal cord injury. J Korean Neurosurg Soc 50 : 209-215, 2011 DOI |
14 | Bazley FA, Hu C, Maybhate A, Pourmorteza A, Pashai N, Thakor NV, et al. : Electrophysiological evaluation of sensory and motor pathways after incomplete unilateral spinal cord contusion. J Neurosurg Spine 16 : 414-423, 2012 DOI |
15 | Curt A, Dietz V : Electrophysiological recordings in patients with spinal cord injury : significance for predicting outcome. Spinal Cord 37 : 157-165, 1999 DOI |
![]() |