三球体模型对实际形状头部中偶极子位置的预测效果如何？

How well does a three-sphere model predict positions of dipoles in a realistically shaped head?

作者信息

Roth B J, Balish M, Gorbach A, Sato S

机构信息

Biomedical Engineering and Instrumentation Program, National Institutes of Health, Bethesda, MD 20892.

出版信息

Electroencephalogr Clin Neurophysiol. 1993 Oct;87(4):175-84. doi: 10.1016/0013-4694(93)90017-p.

DOI:10.1016/0013-4694(93)90017-p

PMID:7691548

Abstract

The electrical potential produced by a dipole in the temporal or frontal lobe was calculated for a realistically shaped scalp, skull, and brain. This potential distribution was then used with a 3-sphere model to predict the position, orientation, and strength of the dipole source. The original and predicted dipole positions differed by an average of 1.97 cm, with a difference of more than 4 cm in some cases. Control calculations demonstrated that this difference was not caused by numerical artifacts in the computation, but instead was due to a true difference between the 3-sphere and realistically shaped head models.

摘要

针对具有逼真形状的头皮、颅骨和大脑，计算了颞叶或额叶中偶极子产生的电势。然后将这种电势分布与一个三球体模型一起用于预测偶极子源的位置、方向和强度。原始的和预测的偶极子位置平均相差1.97厘米，在某些情况下相差超过4厘米。对照计算表明，这种差异不是由计算中的数值伪影引起的，而是由于三球体模型和具有逼真形状的头部模型之间的真实差异所致。

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三球体模型对实际形状头部中偶极子位置的预测效果如何？

How well does a three-sphere model predict positions of dipoles in a realistically shaped head?

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