小脑深部经颅直流电刺激齿状核对改善慢性卒中幸存者站立平衡的初步研究
Deep Cerebellar Transcranial Direct Current Stimulation of the Dentate Nucleus to Facilitate Standing Balance in Chronic Stroke Survivors-A Pilot Study.
作者信息
Rezaee Zeynab, Kaura Surbhi, Solanki Dhaval, Dash Adyasha, Srivastava M V Padma, Lahiri Uttama, Dutta Anirban
机构信息
Department of Biomedical Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA.
All India Institute of Medical Sciences, New Delhi 110029, India.
出版信息
Brain Sci. 2020 Feb 10;10(2):94. doi: 10.3390/brainsci10020094.
OBJECTIVE
Cerebrovascular accidents are the second leading cause of death and the third leading cause of disability worldwide. We hypothesized that cerebellar transcranial direct current stimulation (ctDCS) of the dentate nuclei and the lower-limb representations in the cerebellum can improve functional reach during standing balance in chronic (>6 months' post-stroke) stroke survivors.
MATERIALS AND METHODS
Magnetic resonance imaging (MRI) based subject-specific electric field was computed across a convenience sample of 10 male chronic (>6 months) stroke survivors and one healthy MRI template to find an optimal bipolar bilateral ctDCS montage to target dentate nuclei and lower-limb representations (lobules VII-IX). Then, in a repeated-measure crossover study on a subset of 5 stroke survivors, we compared 15minutes of 2mA ctDCS based on the effects on successful functional reach (%) during standing balance task. Three-way ANOVA investigated the factors of interest- brain regions, montages, stroke participants, and their interactions.
RESULTS
"One-size-fits-all" bipolar ctDCS montage for the clinical study was found to be PO9h-PO10h for dentate nuclei and Exx7-Exx8 for lobules VII-IX with the contralesional anode. PO9h-PO10h ctDCS performed significantly (alpha = 0.05) better in facilitating successful functional reach (%) when compared to Exx7-Exx8 ctDCS. Furthermore, a linear relationship between successful functional reach (%) and electric field strength was found where PO9h-PO10h montage resulted in a significantly (alpha = 0.05) higher electric field strength when compared to Exx7-Exx8 montage for the same 2mA current.
CONCLUSION
We presented a rational neuroimaging based approach to optimize deep ctDCS of the dentate nuclei and lower limb representations in the cerebellum for post-stroke balance rehabilitation. However, this promising pilot study was limited by "one-size-fits-all" bipolar ctDCS montage as well as a small sample size.
目的
脑血管意外是全球第二大死因和第三大致残原因。我们假设,对齿状核和小脑下肢代表区进行小脑经颅直流电刺激(ctDCS)可改善慢性(中风后>6个月)中风幸存者站立平衡期间的功能性够物能力。
材料与方法
基于磁共振成像(MRI)计算了10名男性慢性(>6个月)中风幸存者的便利样本和一个健康MRI模板上的个体特异性电场,以找到针对齿状核和下肢代表区(小叶VII-IX)的最佳双极双侧ctDCS蒙太奇。然后,在对5名中风幸存者的子集进行的重复测量交叉研究中,我们根据对站立平衡任务期间成功功能性够物(%)的影响,比较了15分钟2mA的ctDCS。三因素方差分析研究了感兴趣的因素——脑区、蒙太奇、中风参与者及其相互作用。
结果
临床研究中发现,用于齿状核的“一刀切”双极ctDCS蒙太奇为PO9h-PO10h,用于小叶VII-IX的为Exx7-Exx8,对侧阳极。与Exx7-Exx8 ctDCS相比,PO9h-PO10h ctDCS在促进成功功能性够物(%)方面表现显著更好(α = 0.05)。此外,发现成功功能性够物(%)与电场强度之间存在线性关系,对于相同的2mA电流,与Exx7-Exx8蒙太奇相比,PO9h-PO10h蒙太奇产生的电场强度显著更高(α = 0.05)。
结论
我们提出了一种基于合理神经影像学的方法,以优化对齿状核和小脑中下肢代表区的深部ctDCS,用于中风后平衡康复。然而,这项有前景的初步研究受到“一刀切”双极ctDCS蒙太奇以及小样本量的限制。
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