应用脑磁图测量帕金森病接触点特异性深部脑刺激的效果:一项概念验证研究。
Magnetoencephalography to measure the effect of contact point-specific deep brain stimulation in Parkinson's disease: A proof of concept study.
机构信息
Amsterdam UMC location Vrije Universiteit Amsterdam, Department of Neurology, De Boelelaan 1117, Amsterdam, The Netherlands; Amsterdam UMC location Vrije Universiteit Amsterdam, Department of Clinical Neurophysiology and MEG Center, De Boelelaan 1117, Amsterdam, The Netherlands; Amsterdam UMC location University of Amsterdam, Department of Neurology and Clinical Neurophysiology, Meibergdreef 9, Amsterdam, The Netherlands; Amsterdam Neuroscience, Systems and Network Neuroscience, Amsterdam, The Netherlands.
Amsterdam UMC location University of Amsterdam, Department of Neurology and Clinical Neurophysiology, Meibergdreef 9, Amsterdam, The Netherlands.
出版信息
Neuroimage Clin. 2023;38:103431. doi: 10.1016/j.nicl.2023.103431. Epub 2023 May 10.
BACKGROUND
Deep brain stimulation (DBS) of the subthalamic nucleus (STN) is an effective treatment for disabling fluctuations in motor symptoms in Parkinson's disease (PD) patients. However, iterative exploration of all individual contact points (four in each STN) by the clinician for optimal clinical effects may take months.
OBJECTIVE
In this proof of concept study we explored whether magnetoencephalography (MEG) has the potential to noninvasively measure the effects of changing the active contact point of STN-DBS on spectral power and functional connectivity in PD patients, with the ultimate aim to aid in the process of selecting the optimal contact point, and perhaps reduce the time to achieve optimal stimulation settings.
METHODS
The study included 30 PD patients who had undergone bilateral DBS of the STN. MEG was recorded during stimulation of each of the eight contact points separately (four on each side). Each stimulation position was projected on a vector running through the longitudinal axis of the STN, leading to one scalar value indicating a more dorsolateral or ventromedial contact point position. Using linear mixed models, the stimulation positions were correlated with band-specific absolute spectral power and functional connectivity of i) the motor cortex ipsilateral tot the stimulated side, ii) the whole brain.
RESULTS
At group level, more dorsolateral stimulation was associated with lower low-beta absolute band power in the ipsilateral motor cortex (p = .019). More ventromedial stimulation was associated with higher whole-brain absolute delta (p = .001) and theta (p = .005) power, as well as higher whole-brain theta band functional connectivity (p = .040). At the level of the individual patient, switching the active contact point caused significant changes in spectral power, but the results were highly variable.
CONCLUSIONS
We demonstrate for the first time that stimulation of the dorsolateral (motor) STN in PD patients is associated with lower low-beta power values in the motor cortex. Furthermore, our group-level data show that the location of the active contact point correlates with whole-brain brain activity and connectivity. As results in individual patients were quite variable, it remains unclear if MEG is useful in the selection of the optimal DBS contact point.
背景
深部脑刺激(DBS)的丘脑底核(STN)是一种有效的治疗运动症状的帕金森病(PD)患者禁用波动。然而,通过临床医生探索所有个体接触点(每个 STN 四个)以获得最佳临床效果可能需要数月时间。
目的
在这项概念验证研究中,我们探讨了脑磁图(MEG)是否有可能非侵入性地测量改变 STN-DBS 的活动接触点对 PD 患者的光谱功率和功能连接的影响,最终目的是帮助选择最佳接触点,并可能减少达到最佳刺激设置的时间。
方法
该研究包括 30 名接受双侧 STN-DBS 的 PD 患者。在分别刺激每个 8 个接触点(每侧 4 个)时记录 MEG。每个刺激位置都投影在穿过 STN 纵轴的矢量上,导致一个标量值,表示更背外侧或腹内侧接触点位置。使用线性混合模型,将刺激位置与带特异性绝对光谱功率和功能连接相关联:i)对侧运动皮层,ii)全脑。
结果
在组水平上,更背外侧刺激与同侧运动皮层的低β绝对带宽功率降低相关(p = 0.019)。更腹侧刺激与全脑绝对δ(p = 0.001)和θ(p = 0.005)功率升高以及全脑θ带功能连接升高相关(p = 0.040)。在个体患者水平上,切换活动接触点导致光谱功率发生显著变化,但结果差异很大。
结论
我们首次证明,在 PD 患者中刺激背外侧(运动)STN 与运动皮层中的低β功率值降低相关。此外,我们的组水平数据表明,活动接触点的位置与全脑活动和连接相关。由于个体患者的结果差异很大,因此尚不清楚 MEG 是否有助于选择最佳 DBS 接触点。
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