Gang Liu1, Chao Dang1, Xinran Chen1, Shihui Xing1, Krishna Dani2, Chuanmiao Xie3, Kangqiang Peng3, Jingna Zhang4, Jingjing Li1, Jian Zhang1, Li Chen1, Zhong Pei1, Jinsheng Zeng1. 1. Department of Neurology and Stroke Center, First Affiliated Hospital of Sun Yat- Sen University, Guangzhou 510080, People's Republic of China. 2. Institute of Neuroscience and Psychology, University of Glasgow, Scotland, UK. 3. State Key Laboratory of Oncology in Southern China, Imaging Diagnosis and Interventional Center, Cancer Center of Sun Yat- Sen University, Guangzhou, People's Republic of China. 4. Department of Medical Informatics and Medical Image, College of Biomedical Engineering of Third Military Medical University, Chongqing, People's Republic of China.
Abstract
PURPOSE: This study aimed to identify brain areas with white matter changes that contribute to motor recovery of affected limbs during acute to sub-acute phases of subcortical infarction. METHODS: Diffusion tensor imaging was performed 1, 4, and 12 weeks after stroke onset in 18 patients with acute subcortical infarct, and in 18 age- and risk factor-matched controls. Fugl-Meyer scale was used to assess levels of motor impairment, and Statistical Parametric Mapping was applied to determine fractional anisotropy (FA) changes for the entire brain in order to identify areas correlated with motor recovery. RESULTS: Fugl-Meyer scores of patients at 4 and 12 weeks were significantly higher than those at 1 week (all p < 0.01). Accompanying with the progressive decreases of FA in the corticospinal tract above and below the stroke lesion, progressive increases of FA in the contralesional medial frontal gyrus, and thalamocortical connections including projections to the somatosensory cortices, primary motor cortex, and premotor areas, were positively correlated with Fugl-Meyer scores (all p < 0.005) within 12 weeks following acute subcortical infarction. CONCLUSIONS: Remodeling of white matter in contralesional brain regions related to motor, cognition, and sensory processing may facilitate early motor recovery in patients with an acute infarct.
PURPOSE: This study aimed to identify brain areas with white matter changes that contribute to motor recovery of affected limbs during acute to sub-acute phases of subcortical infarction. METHODS: Diffusion tensor imaging was performed 1, 4, and 12 weeks after stroke onset in 18 patients with acute subcortical infarct, and in 18 age- and risk factor-matched controls. Fugl-Meyer scale was used to assess levels of motor impairment, and Statistical Parametric Mapping was applied to determine fractional anisotropy (FA) changes for the entire brain in order to identify areas correlated with motor recovery. RESULTS: Fugl-Meyer scores of patients at 4 and 12 weeks were significantly higher than those at 1 week (all p < 0.01). Accompanying with the progressive decreases of FA in the corticospinal tract above and below the stroke lesion, progressive increases of FA in the contralesional medial frontal gyrus, and thalamocortical connections including projections to the somatosensory cortices, primary motor cortex, and premotor areas, were positively correlated with Fugl-Meyer scores (all p < 0.005) within 12 weeks following acute subcortical infarction. CONCLUSIONS: Remodeling of white matter in contralesional brain regions related to motor, cognition, and sensory processing may facilitate early motor recovery in patients with an acute infarct.
Entities:
Keywords:
Subcortical infarction; diffusion tensor imaging; motor recovery; neural plasticity; white matter
Authors: Johanna Seitz; Amanda E Lyall; Gen Kanayama; Nikos Makris; James I Hudson; Marek Kubicki; Harrison G Pope; Marc J Kaufman Journal: Psychiatry Res Neuroimaging Date: 2016-12-10 Impact factor: 2.376