@article {Egorova-Brumleye1664作者={纳塔莉亚Egorova-Brumley和Thijs Dhollander Wasim汗和默罕默德·沙拉Khlif艾米和蒂娜Ebaid Brodtmann}, title ={白质微结构的变化/ 3年,没有中风患者},体积={100}={16},页面= {e1664——e1672} = {2023}, doi = {10.1212 / WNL。出版商0000000000207065}= {Wolters Kluwer健康,公司代表美国神经病学学会},文摘={背景和目标脑白质的健康可以通过MRI-derived指数估计微观结构。首页白质功能障碍越来越被认为是一个贡献者神经退行性疾病影响卒中后认知和功能的结果。白质微结构指数减少了横向比较与stroke-free参与者相比,中风幸存者,但纵向卒中后白质结构的变化在很大程度上仍未知。我们旨在描述脑白质微观和宏观结构对卒中后3年和研究协会与白质指标和认知功能。方法首次或复发性缺血性中风患者的病因在任何血管领土比较stroke-free年龄,sex-matched控制。那些患有出血性中风、TIA、静脉梗塞,或者重要医学并存病,精神病学和神经退行性疾病,药物滥用或痴呆的历史被排除在外。Diffusion-weighted MRI数据在3、12和36个月使用纵向fixel-based分析进行了分析,对纤维束{\ textendash}体素内的具体差异。它被用来检查全脑白质变性与控制相比,中风的参与者。我们研究微观结构差异,纤维密度和macrostructural纤维束截面的变化,与认知能力。分析年龄、颅内体积,和教育(p {\ textendash} family-wise错误纠正\ < 0.05,非参数测试超过5000排列)。结果我们包括71名参与者与中风(66 {\ textpm} 12岁,22岁女性)和36个控件(69岁{\ textpm} 5年,13名女性)。 We observed extensive white matter structural degeneration across the whole brain, particularly affecting the thalamic, cerebellar, striatal, and superior longitudinal tracts and corpus callosum. Importantly, follow-up regression analyses in 72 predefined tracts showed that the decline in fiber density and cross-section from 3 months to 3 years was associated with worse cognitive performance at 3 years after stroke, especially affecting visuospatial processing, processing speed, language, and recognition memory.Discussion We conclude that white matter neurodegeneration in ipsi- and contralesional thalamic, striatal, and cerebellar tracts continues to be greater in stroke survivors compared with stroke-free controls. White matter degeneration persists even years after stroke and is associated with poststroke cognitive impairment.Trial Registration Information ClinicalTrails.gov NCT02205424.CANVAS=Cognition and Neocortical Volume After Stroke; FBA=fixel-based analysis; FC=fiber cross-section; FD=fiber density; FDR=false discovery rate; FLAIR=fluid-attenuated inversion recovery; FOD=fiber orientation distribution; NIHSS=NIH Stroke Scale; SS3T-CSD=single-shell 3-tissue constrained spherical deconvolution; TE=echo time; TIV=total intracranial volume; TR=time of repetition; WMH=white matter hyperintensity}, issn = {0028-3878}, URL = {//www.ez-admanager.com/content/100/16/e1664}, eprint = {//www.ez-admanager.com/content/100/16/e1664.full.pdf}, journal = {Neurology} }