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基于正中神经体感诱发电位标准确定人类基底神经节亚结构中深部脑刺激的目标区域。

Identification of target areas for deep brain stimulation in human basal ganglia substructures based on median nerve sensory evoked potential criteria.

作者信息

Klostermann F, Vesper J, Curio G

机构信息

Neurophysics Group, Department of Neurology, Klinikum Benjamin Franklin, Freie Universität Berlin, Hindenburgdamm 30, 12200 Berlin, Germany.

出版信息

J Neurol Neurosurg Psychiatry. 2003 Aug;74(8):1031-5. doi: 10.1136/jnnp.74.8.1031.

DOI:10.1136/jnnp.74.8.1031
PMID:12876229
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1738584/
Abstract

OBJECTIVE

In the interventional treatment of movement disorders, the thalamic ventral intermediate nucleus (VIM) and the subthalamic nucleus (STN) are the most relevant electrode targets for deep brain stimulation (DBS). This study tested the value of somatosensory evoked potentials (SEP) for the functional identification of VIM and STN.

METHODS

Median nerve SEP were recorded from the final stimulation electrodes targeted at STN and VIM. Throughout the stereotactic procedure SEP were recorded during short electrode stops above STN/VIM and within the presumed target areas. After digital filtering, high and low frequency SEP components were analysed separately to parameterise both the 1000 Hz SEP burst and low frequency (<100 Hz) components.

RESULTS

SEP recorded in the VIM target region could unequivocally be distinguished from SEP recorded in STN. The 1000 Hz burst signal was significantly larger in VIM than in STN without any overlap of amplitude values. In the low frequency band, a primary high amplitude negativity was obtained in VIM, contrasting with a low amplitude positivity in STN. SEP waveshapes in recordings above target positions resembled SEP obtained in STN. When entering VIM, a sharp amplitude increase was observed over a few millimetres only.

CONCLUSIONS

Based on SEP criteria, the VIM target but not the STN region can be identified by typical SEP configuration changes, when penetrating the target zone. The approach is independent of the patient's cooperation and vigilance and therefore feasible in general anaesthesia. It provides an easy, reliable, and robust tool for the final assessment of electrode positions at the last instance during electrode implantation when eventual electrode revisions can easily be performed.

摘要

目的

在运动障碍的介入治疗中,丘脑腹中间核(VIM)和丘脑底核(STN)是深部脑刺激(DBS)最相关的电极靶点。本研究测试了体感诱发电位(SEP)对VIM和STN功能识别的价值。

方法

从靶向STN和VIM的最终刺激电极记录正中神经SEP。在整个立体定向过程中,在STN/VIM上方及推测的目标区域内短暂停止电极时记录SEP。经过数字滤波后,分别分析SEP的高频和低频成分,以对1000Hz的SEP爆发和低频(<100Hz)成分进行参数化。

结果

在VIM目标区域记录的SEP可明确与在STN记录的SEP区分开来。VIM中1000Hz的爆发信号明显大于STN,且幅度值无任何重叠。在低频带,VIM中获得主要的高幅度负波,与STN中的低幅度正波形成对比。目标位置上方记录的SEP波形类似于在STN中获得的SEP。进入VIM时,仅在几毫米内观察到幅度急剧增加。

结论

基于SEP标准,当穿透目标区域时,可通过典型的SEP配置变化识别VIM靶点而非STN区域。该方法独立于患者的合作与警觉性,因此在全身麻醉下可行。它为电极植入最后阶段电极位置的最终评估提供了一种简单、可靠且稳健的工具,此时可轻松进行最终的电极修正。

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本文引用的文献

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Surg Neurol. 2002 May;57(5):306-11; discussion 311-3. doi: 10.1016/s0090-3019(02)00691-2.
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Intrathalamic non-propagating generators of high-frequency (1000 Hz) somatosensory evoked potential (SEP) bursts recorded subcortically in man.在人体皮层下记录到的高频(1000赫兹)体感诱发电位(SEP)爆发的丘脑内非传播性发生器。
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Propofol narcosis dissociates human intrathalamic and cortical high-frequency (> 400 hz) SEP components.丙泊酚麻醉可使人类丘脑内和皮层高频(>400赫兹)体感诱发电位成分分离。
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Neuropsychological changes between "off" and "on" STN or GPi stimulation in Parkinson's disease.帕金森病中丘脑底核或苍白球内侧部刺激“关”期与“开”期之间的神经心理学变化
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