皮质兴奋性和皮质下小儿卒中后的大脑半球间抑制：塑性组织和 rTMS 的影响。

Cortical excitability and interhemispheric inhibition after subcortical pediatric stroke: plastic organization and effects of rTMS.

机构信息

Department of Pediatrics, University of Calgary, Calgary, Alta., Canada; Department of Clinical Neurosciences, University of Calgary, Calgary, Alta., Canada.

出版信息

Clin Neurophysiol. 2010 Nov;121(11):1922-9. doi: 10.1016/j.clinph.2010.04.021.

DOI:10.1016/j.clinph.2010.04.021

PMID:20537584

Abstract

OBJECTIVE

Arterial ischemic stroke (AIS) causes disability in children but plastic developmental neurophysiology is unstudied. Imbalance of interhemispheric inhibition (IHI) in adult subcortical stroke is a therapeutic target. We hypothesized that IHI imbalance occurs in childhood AIS and is modifiable by rTMS.

METHODS

Eligible SickKids Children's Stroke Program patients included children >7years with subcortical AIS (>2years previous) and functional hand impairment. TMS with electromyography over first dorsal interosseous measured baseline motor cortex (M1) rest and 1mV thresholds and stimulus-response curves (100-150%). Paired-pulse TMS studied bidirectional short (SIHI) and long (LIHI) interval IHI. Children were matched for age/weakness and randomized to contralesional inhibitory rTMS or sham (8days) with measures repeated.

RESULTS

Ten children (mean 13.9 years) had variable weakness (4 mild/2 moderate/4 severe). Stroke M1 motor thresholds were elevated (75±25% versus 55±14%, p=0.05) and decreased with age. Baseline measures suggested excessive LIHI from non-stroke to stroke side (-46±17% versus -28±23%, p=0.08). Following inhibitory rTMS, increases in stroke side maximal MEP amplitudes were suggested and LIHI from stroke to non-stroke side appeared to increase (-20% to -40%). Procedures were well tolerated.

CONCLUSION

TMS measurement of developmental plastic organization and rTMS interventions are feasible in childhood stroke and IHI imbalance may occur.

SIGNIFICANCE

Improved understanding of developmental plasticity after childhood stroke will facilitate better rehabilitational therapy.

摘要

目的

动脉缺血性脑卒中（AIS）可导致儿童残疾，但皮质下发育神经生理学尚未得到研究。成年皮质下脑卒中患者的大脑半球间抑制失衡（IHI）是一个治疗靶点。我们假设儿童 AIS 中存在 IHI 失衡，且 rTMS 可调节这种失衡。

方法

符合条件的 SickKids 儿童医院卒中项目患儿包括患有皮质下 AIS（>2 年前发病）且存在手部功能障碍的>7 岁儿童。用肌电图经第一骨间背侧肌测量静息状态下运动皮质（M1）的初始磁刺激（TMS）和 1mV 阈值，以及刺激反应曲线（100-150%）。双脉冲 TMS 研究了双向短（SIHI）和长（LIHI）间隔 IHI。根据年龄/无力情况对患儿进行匹配，并随机分为对侧抑制性 rTMS 或假刺激（8 天）组，重复测量各项指标。

结果

10 名儿童（平均年龄 13.9 岁）存在不同程度的无力（4 例轻度/2 例中度/4 例重度）。卒中 M1 运动阈值升高（75±25%比 55±14%，p=0.05），且随年龄降低。基线测量提示非卒中侧到卒中侧的 LIHI 过高（-46±17%比-28±23%，p=0.08）。抑制性 rTMS 后，卒中侧最大运动诱发电位振幅增加，且卒中侧到非卒中侧的 LIHI 似乎增加（-20%至-40%）。操作均耐受良好。

结论

TMS 可用于测量儿童卒中后的发育性组织重塑，rTMS 干预是可行的，且可能存在 IHI 失衡。

意义

深入了解儿童卒中后的发育可塑性，将有助于更好的康复治疗。

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皮质兴奋性和皮质下小儿卒中后的大脑半球间抑制：塑性组织和 rTMS 的影响。

Cortical excitability and interhemispheric inhibition after subcortical pediatric stroke: plastic organization and effects of rTMS.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

SIGNIFICANCE

目的

方法

结果

结论

意义

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