长期持续θ突发刺激增加神经性疼痛患者的运动皮质脊髓兴奋性和皮质内抑制:一项探索性、单盲、随机对照试验。

IF 2.7 4区 医学 Q2 CLINICAL NEUROLOGY Neurophysiologie Clinique/Clinical Neurophysiology Pub Date : 2023-08-01 DOI:10.1016/j.neucli.2023.102894
Bhushan Thakkar , Carrie L. Peterson , Edmund O. Acevedo
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引用次数: 0

摘要

目的:经颅磁刺激(TMS)的一种新模式,即延长连续θ突发刺激(pcTBS),由于其优于高频重复性TMS(HF-rTMS),最近在文献中受到了关注。临床优势包括每次干预时间更短,而且在调节皮层兴奋性方面,效果似乎比HF rTMS更强大和可重复。靶向初级运动皮层(M1)的HF rTMS已证明对神经性疼痛患者具有镇痛作用,但其作用机制尚不清楚,pcTBS仅在健康受试者中进行了研究。本研究检验了神经机制,这些机制被认为在解释针对2型糖尿病神经性疼痛(NP)患者的M1和DLPFC脑区的pcTBS的作用中发挥作用。方法:将42名患有疼痛性糖尿病神经病变的患者随机分组,接受针对左侧M1或左侧DLPFC的单次pcTBS治疗。pcTBS刺激由在1分钟和44秒内递送的1200个脉冲组成,假刺激和主动pcTBS之间有35-45分钟的间隔。通过测量压力-疼痛阈值,使用手持式压力算法记录使用条件疼痛调节检查的下行疼痛系统的活动和使用疼痛的时间总和评估的上行疼痛系统的活性。运动诱发电位(MEP)的振幅用于测量运动皮质脊髓兴奋性,GABA活性使用短期(SICI)和长期皮质内抑制(LICI)进行评估。所有这些测量都是在基线和pcTBS刺激后进行的。结果:在针对M1和DLPFC的单次pcTBS治疗后,与基线相比,BPI-DN评分以及下行(使用条件疼痛调节测量)和上行疼痛系统(使用疼痛的时间总和测量)的活动没有变化,但对急性疼痛强度的感知有>13%的显著改善,增加运动皮质脊髓兴奋性(使用MEP振幅测量)和皮质内抑制(使用SICI和LICI测量)。结论:在NP患者中,针对M1和DLPFC的单次pcTBS调节了与运动皮质脊髓刺激性相关的神经生理学机制和与GABA活性相关的神经化学机制,但不调节上行和下行内源性调节系统的活性。此外,尽管BPI-DN评分没有变化,但自我报告的急性疼痛强度感知改善了13%。
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Prolonged continuous theta burst stimulation increases motor corticospinal excitability and intracortical inhibition in patients with neuropathic pain: An exploratory, single-blinded, randomized controlled trial

Objectives

A new paradigm for Transcranial Magnetic Stimulation (TMS), referred to as prolonged continuous theta burst stimulation (pcTBS), has recently received attention in the literature because of its advantages over high frequency repetitive TMS (HF-rTMS). Clinical advantages include less time per intervention session and the effects appear to be more robust and reproducible than HF-rTMS to modulate cortical excitability. HF-rTMS targeted at the primary motor cortex (M1) has demonstrated analgesic effects in patients with neuropathic pain but their mechanisms of action are unclear and pcTBS has been studied in healthy subjects only. This study examined the neural mechanisms that have been proposed to play a role in explaining the effects of pcTBS targeted at the M1 and DLPFC brain regions in neuropathic pain (NP) patients with Type 2 diabetes.

Methods

Forty-two patients with painful diabetic neuropathy were randomized to receive a single session of pcTBS targeted at the left M1 or left DLPFC. pcTBS stimulation consisted of 1,200 pulses delivered in 1 min and 44 s with a 35–45 min gap between sham and active pcTBS stimulation. Both the activity of the descending pain system which was examined using conditioned pain modulation and the activity of the ascending pain system which was assessed using temporal summation of pain were recorded using a handheld pressure algometer by measuring pressure pain thresholds. The amplitude of the motor evoked potential (MEP) was used to measure motor corticospinal excitability and GABA activity was assessed using short (SICI) and long intracortical inhibition (LICI). All these measurements were performed at baseline and post-pcTBS stimulation.

Results

Following a single session of pcTBS targeted at M1 and DLPFC, there was no change in BPI-DN scores and on the activity of the descending (measured using conditioned pain modulation) and ascending pain systems (measured using temporal summation of pain) compared to baseline but there was a significant improvement of >13% in perception of acute pain intensity, increased motor corticospinal excitability (measured using MEP amplitude) and intracortical inhibition (measured using SICI and LICI).

Conclusion

In patients with NP, a single session of pcTBS targeted at the M1 and DLPFC modulated the neurophysiological mechanisms related to motor corticospinal excitability and neurochemical mechanisms linked to GABA activity, but it did not modulate the activity of the ascending and descending endogenous modulatory systems. In addition, although BPI-DN scores did not change, there was a 13% improvement in self-reported perception of acute pain intensity.

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来源期刊
CiteScore
5.20
自引率
3.30%
发文量
55
审稿时长
60 days
期刊介绍: Neurophysiologie Clinique / Clinical Neurophysiology (NCCN) is the official organ of the French Society of Clinical Neurophysiology (SNCLF). This journal is published 6 times a year, and is aimed at an international readership, with articles written in English. These can take the form of original research papers, comprehensive review articles, viewpoints, short communications, technical notes, editorials or letters to the Editor. The theme is the neurophysiological investigation of central or peripheral nervous system or muscle in healthy humans or patients. The journal focuses on key areas of clinical neurophysiology: electro- or magneto-encephalography, evoked potentials of all modalities, electroneuromyography, sleep, pain, posture, balance, motor control, autonomic nervous system, cognition, invasive and non-invasive neuromodulation, signal processing, bio-engineering, functional imaging.
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