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导航经颅刺激能否提高神经纤维束成像的准确性?一项基于深部脑刺激术中运动诱发电位监测的前瞻性临床试验。

Does navigated transcranial stimulation increase the accuracy of tractography? A prospective clinical trial based on intraoperative motor evoked potential monitoring during deep brain stimulation.

作者信息

Forster Marie-Therese, Hoecker Alexander Claudius, Kang Jun-Suk, Quick Johanna, Seifert Volker, Hattingen Elke, Hilker Rüdiger, Weise Lutz Martin

机构信息

‡Departments of Neurosurgery, §Neurology, and ¶Neuroradiology, Goethe University Hospital, Frankfurt, Germany.

出版信息

Neurosurgery. 2015 Jun;76(6):766-75; discussion 775-6. doi: 10.1227/NEU.0000000000000715.

DOI:10.1227/NEU.0000000000000715
PMID:25988930
Abstract

BACKGROUND

Tractography based on diffusion tensor imaging has become a popular tool for delineating white matter tracts for neurosurgical procedures.

OBJECTIVE

To explore whether navigated transcranial magnetic stimulation (nTMS) might increase the accuracy of fiber tracking.

METHODS

Tractography was performed according to both anatomic delineation of the motor cortex (n = 14) and nTMS results (n = 9). After implantation of the definitive electrode, stimulation via the electrode was performed, defining a stimulation threshold for eliciting motor evoked potentials recorded during deep brain stimulation surgery. Others have shown that of arm and leg muscles. This threshold was correlated with the shortest distance between the active electrode contact and both fiber tracks. Results were evaluated by correlation to motor evoked potential monitoring during deep brain stimulation, a surgical procedure causing hardly any brain shift.

RESULTS

Distances to fiber tracks clearly correlated with motor evoked potential thresholds. Tracks based on nTMS had a higher predictive value than tracks based on anatomic motor cortex definition (P < .001 and P = .005, respectively). However, target site, hemisphere, and active electrode contact did not influence this correlation.

CONCLUSION

The implementation of tractography based on nTMS increases the accuracy of fiber tracking. Moreover, this combination of methods has the potential to become a supplemental tool for guiding electrode implantation.

摘要

背景

基于扩散张量成像的纤维束成像已成为神经外科手术中描绘白质纤维束的常用工具。

目的

探讨导航经颅磁刺激(nTMS)是否可提高纤维束追踪的准确性。

方法

根据运动皮层的解剖学描绘(n = 14)和nTMS结果(n = 9)进行纤维束成像。在植入最终电极后,通过电极进行刺激,确定在深部脑刺激手术期间诱发运动诱发电位的刺激阈值。其他人已经表明了手臂和腿部肌肉的情况。该阈值与有源电极触点与两条纤维束之间的最短距离相关。通过与深部脑刺激期间的运动诱发电位监测进行相关性评估结果,深部脑刺激是一种几乎不会引起脑移位的外科手术。

结果

到纤维束的距离与运动诱发电位阈值明显相关。基于nTMS的纤维束比基于解剖学运动皮层定义的纤维束具有更高的预测价值(分别为P <.001和P =.005)。然而,靶点、半球和有源电极触点并不影响这种相关性。

结论

基于nTMS的纤维束成像的实施提高了纤维束追踪的准确性。此外,这种方法组合有可能成为指导电极植入的辅助工具。

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