Krieg Sandro M, Tarapore Phiroz E, Picht Thomas, Tanigawa Noriko, Houde John, Sollmann Nico, Meyer Bernhard, Vajkoczy Peter, Berger Mitchel S, Ringel Florian, Nagarajan Srikantan
Department of Neurosurgery, Klinikum rechts der Isar, Technische Universität München, Ismaninger Str. 22, 81675 Munich, Germany.
Department of Neurological Surgery, University of California at San Francisco, 505 Parnassus Ave, Moffitt, San Francisco, CA 94143, USA.
Neuroimage. 2014 Oct 15;100:219-36. doi: 10.1016/j.neuroimage.2014.06.016. Epub 2014 Jun 17.
Within the primary motor cortex, navigated transcranial magnetic stimulation (nTMS) has been shown to yield maps strongly correlated with those generated by direct cortical stimulation (DCS). However, the stimulation parameters for repetitive nTMS (rTMS)-based language mapping are still being refined. For this purpose, the present study compares two rTMS protocols, which differ in the timing of pulse train onset relative to picture presentation onset during object naming. Results were the correlated with DCS language mapping during awake surgery.
Thirty-two patients with left-sided perisylvian tumors were examined by rTMS prior to awake surgery. Twenty patients underwent rTMS pulse trains starting at 300 ms after picture presentation onset (delayed TMS), whereas another 12 patients received rTMS pulse trains starting at the picture presentation onset (ONSET TMS). These rTMS results were then evaluated for correlation with intraoperative DCS results as gold standard in terms of differential consistencies in receiver operating characteristics (ROC) statistics. Logistic regression analysis by protocols and brain regions were conducted.
Within and around Broca's area, there was no difference in sensitivity (onset TMS: 100%, delayed TMS: 100%), negative predictive value (NPV) (onset TMS: 100%, delayed TMS: 100%), and positive predictive value (PPV) (onset TMS: 55%, delayed TMS: 54%) between the two protocols compared to DCS. However, specificity differed significantly (onset TMS: 67%, delayed TMS: 28%). In contrast, for posterior language regions, such as supramarginal gyrus, angular gyrus, and posterior superior temporal gyrus, early pulse train onset stimulation showed greater specificity (onset TMS: 92%, delayed TMS: 20%), NPV (onset TMS: 92%, delayed TMS: 57%) and PPV (onset TMS: 75%, delayed TMS: 30%) with comparable sensitivity (onset TMS: 75%, delayed TMS: 70%). Logistic regression analysis also confirmed the greater fit of the predictions by rTMS that had the pulse train onset coincident with the picture presentation onset when compared to the delayed stimulation. Analyses of differential disruption patterns of mapped cortical regions were further able to distinguish clusters of cortical regions standardly associated with semantic and pre-vocalization phonological networks proposed in various models of word production. Repetitive nTMS predictions by both protocols correlate well with DCS outcomes especially in Broca's region, particularly with regard to TMS negative predictions.
With this study, we have demonstrated that rTMS stimulation onset coincident with picture presentation onset improves the accuracy of preoperative language maps, particularly within posterior language areas. Moreover, immediate and delayed pulse train onsets may have complementary disruption patterns that could differentially capture cortical regions causally necessary for semantic and pre-vocalization phonological networks.
在初级运动皮层内,经颅磁刺激导航(nTMS)已被证明可产生与直接皮层刺激(DCS)所产生的图谱高度相关的图谱。然而,基于重复经颅磁刺激(rTMS)的语言图谱绘制的刺激参数仍在不断完善。为此,本研究比较了两种rTMS方案,这两种方案在物体命名过程中脉冲序列开始时间相对于图片呈现开始时间方面有所不同。结果与清醒手术期间的DCS语言图谱绘制结果相关。
32例左侧外侧裂周围肿瘤患者在清醒手术前接受了rTMS检查。20例患者接受在图片呈现开始后300毫秒开始的rTMS脉冲序列(延迟TMS),而另外12例患者接受在图片呈现开始时开始的rTMS脉冲序列(起始TMS)。然后根据接受者操作特征(ROC)统计中的差异一致性,将这些rTMS结果与术中DCS结果作为金标准进行相关性评估。按方案和脑区进行逻辑回归分析。
与DCS相比,在布洛卡区及其周围,两种方案在敏感性(起始TMS:100%,延迟TMS:100%)、阴性预测值(NPV)(起始TMS:100%,延迟TMS:100%)和阳性预测值(PPV)(起始TMS:55%,延迟TMS:54%)方面没有差异。然而,特异性有显著差异(起始TMS:67%,延迟TMS:28%)。相比之下,对于后语言区,如缘上回、角回和颞上回后部,早期脉冲序列开始刺激显示出更高的特异性(起始TMS:92%,延迟TMS:20%)、NPV(起始TMS:92%,延迟TMS:57%)和PPV(起始TMS:75%,延迟TMS:30%),敏感性相当(起始TMS:75%,延迟TMS:70%)。逻辑回归分析也证实,与延迟刺激相比,脉冲序列开始与图片呈现开始一致的rTMS预测拟合度更高。对映射皮层区域的差异破坏模式分析进一步能够区分在各种单词生成模型中提出的通常与语义和发声前语音网络相关的皮层区域簇。两种方案的重复rTMS预测与DCS结果相关性良好,尤其是在布洛卡区,特别是在TMS阴性预测方面。
通过本研究,我们证明了与图片呈现开始一致的rTMS刺激开始可提高术前语言图谱的准确性,特别是在后语言区。此外,即时和延迟脉冲序列开始可能具有互补的破坏模式,可不同程度地捕获语义和发声前语音网络因果所需的皮层区域。
