癫痫棘波偶极子模型的可靠性

Reliability of dipole models of epileptic spikes.

作者信息

Merlet I, Gotman J

机构信息

Montreal Neurological Institute, and Department of Neurology and Neurosurgery, McGill University, Quebec, Canada.

出版信息

Clin Neurophysiol. 1999 Jun;110(6):1013-28. doi: 10.1016/s1388-2457(98)00062-5.

DOI:10.1016/s1388-2457(98)00062-5

PMID:10402088

Abstract

OBJECTIVE

In order to validate dipole-modeling results, we compared dipole localizations with the distribution of intracerebral potentials occurring simultaneously with scalp EEG paroxysms.

METHODS

Firstly, scalp EEGs were recorded from 11 patients. Dipole sources were estimated on averaged spikes and projected on 3D-MRIs. Secondly, stereoelectroencephalography (SEEG) was recorded from implanted electrodes with direct identification onto MRI. Simultaneously with SEEG, control scalp electrodes were pasted where spikes peaked during the first session. SEEG was averaged, triggered by the main peak of scalp spikes.

RESULTS

SEEG activity during scalp spikes always involved several contacts. In 13 of 14 spikes, maximal fields occurred in neocortical regions. In 4 of 5 cases where intracerebral activity was simple, spikes could be modeled by one source. In all cases where intracerebral activity was complex, spikes had to be modeled by several sources. The main dipole source was 11 +/- 4.2 mm from the SEEG contact showing the maximal intracerebral potential. Early and late dipole localization and SEEG fields were concordant in two thirds of cases.

CONCLUSION

Results indicate that in our group of patients scalp spikes reflect activity in large neocortical areas and never activity limited to mesial structures. Dipole locations and time activation were confirmed most often and were more reliable for sources representing the main negative component than for early or late sources.

摘要

目的

为验证偶极子模型结果，我们将偶极子定位与头皮脑电图发作时同时出现的脑内电位分布进行了比较。

方法

首先，记录了11例患者的头皮脑电图。在平均尖波上估计偶极子源，并投影到三维磁共振成像上。其次，通过植入电极记录立体脑电图（SEEG），并直接在磁共振成像上进行识别。在记录SEEG的同时，将对照头皮电极粘贴在第一次记录时尖波峰值出现的位置。以头皮尖波的主峰为触发信号，对SEEG进行平均。

结果

头皮尖波期间的SEEG活动总是涉及多个触点。在14个尖波中的13个中，最大场出现在新皮质区域。在脑内活动简单的5例中的4例中，尖波可用一个源进行建模。在所有脑内活动复杂的情况下，尖波必须用多个源进行建模。主要偶极子源距离显示最大脑内电位的SEEG触点11±4.2毫米。在三分之二的病例中，早期和晚期偶极子定位与SEEG场一致。

结论

结果表明，在我们的患者组中，头皮尖波反映的是大脑新皮质大面积区域的活动，而非仅限于内侧结构的活动。偶极子位置和时间激活情况在大多数情况下得到证实，对于代表主要负成分的源比早期或晚期源更可靠。

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癫痫棘波偶极子模型的可靠性

Reliability of dipole models of epileptic spikes.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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