Paired DBS and TMS Reveals Dentato-Cortical Facilitation Underlying Upper Extremity Movement in Chronic Stroke Survivors.

Neurorehabilitation and neural repair Pub Date : 2024-02-01 Epub Date: 2023-12-29 DOI:10.1177/15459683231219265

Xin Li, Kenneth B Baker, Kyle O'Laughlin, Jacqueline Chen, Olivia Hogue, Andre G Machado, Ela B Plow

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Abstract

Background: Cerebellum shares robust di-synaptic dentato-thalamo-cortical (DTC) connections with the contralateral motor cortex. Preclinical studies have shown that DTC are excitatory in nature. Structural integrity of DTC is associated with better upper extremity (UE) motor function in people with stroke, indicating DTC are important for cerebellar influences on movement. However, there is a lack of understanding of physiologic influence of DTC in humans, largely due to difficulty in accessing the dentate nucleus.

Objective: Characterize DTC physiology using dentate nucleus deep brain stimulation (DBS) combined with transcranial magnetic stimulation (TMS) in stroke.

Methods: Nine chronic stroke survivors with moderate-to-severe UE impairment (Fugl-Meyer 13-38) underwent a paired DBS-TMS experiment before receiving experimental dentate nucleus DBS in our first-in-human phase I trial (Baker et al., 2023, Nature Medicine). Conditioning DBS pulses were given to dentate nucleus 1 to 10 ms prior to supra-threshold TMS pulses given to ipsilesional motor cortex. Effects were assessed on motor evoked potentials (MEPs). Size of DBS-conditioned MEPs was expressed relative to TMS MEPs, where values >1 indicate facilitation.

Results: Dentate nucleus DBS led to facilitation of MEPs at short-latency intervals (3.5 and 5 ms, P = .049 and .021, respectively), a phenomenon we have termed dentato-cortical facilitation (DCF). Higher DCF was observed among patients with more severe UE impairment. Diffusion tensor imaging revealed microstructure of thalamo-cortical portion of DTC was related to higher corticomotor excitability.

Conclusions: Our in vivo investigation reveals for the first time in humans the intrinsic excitatory properties of DTC, which can serve as a novel therapeutic target for post-stroke motor recovery.

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DBS 和 TMS 配对揭示了慢性中风幸存者上肢运动的齿皮层促进机制。

背景：小脑与对侧运动皮层共享强大的二突触齿状突触（DTC）连接。临床前研究表明，DTC 具有兴奋性。DTC 结构的完整性与中风患者上肢（UE）运动功能的改善有关，这表明 DTC 对小脑运动的影响非常重要。然而，由于难以进入齿状核，人们对 DTC 在人体中的生理影响还缺乏了解：利用齿状核深部脑刺激（DBS）结合经颅磁刺激（TMS）对中风患者的 DTC 生理特性进行研究：九名患有中度至重度UE损伤（Fugl-Meyer 13-38）的慢性中风幸存者在我们的首次人体I期试验（Baker等人，2023年，《自然医学》）中接受实验性齿状核DBS之前接受了DBS-TMS配对实验。在向同侧运动皮层发出超阈值 TMS 脉冲之前 1 到 10 毫秒，向齿状核发出调节性 DBS 脉冲。评估对运动诱发电位（MEPs）的影响。DBS 条件下 MEPs 的大小相对于 TMS MEPs 表示，数值大于 1 表示促进：结果：齿状核 DBS 在短频率间隔（3.5 毫秒和 5 毫秒，P = 0.049 和 0.021，分别为 0.049 和 0.021）导致了 MEPs 的促进，我们称这种现象为齿状皮质促进（DCF）。在 UE 损伤更严重的患者中观察到更高的 DCF。弥散张量成像显示 DTC 丘脑皮层部分的微观结构与较高的皮质运动兴奋性有关：我们的体内研究首次揭示了 DTC 的内在兴奋特性，它可以作为脑卒中后运动恢复的新型治疗靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neurorehabilitation and neural repair

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