P.H. Schimpf scite author profile

Abstract-The current dipole is a widely used source model in forward and inverse electroencephalography and magnetoencephalography applications. Analytic solutions to the governing field equations have been developed for several approximations of the human head using ideal dipoles as the source model. Numeric approaches such as the finite-element and finite-difference methods have become popular because they allow the use of anatomically realistic head models and the increased computational power that they require has become readily available. Although numeric methods can represent more realistic domains, the sources in such models are an approximation of the ideal dipole. In this paper, we examine several methods for representing dipole sources in finite-element models and compare the resulting surface potentials and external magnetic field with those obtained from analytic solutions using ideal dipoles.Index Terms-Dipole, EEG, finite-element method, MEG, spherical head model.

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Role of Soft Bone, CSF and Gray Matter in EEG Simulations

Ramon

et al. 2003

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Effects of soft skull bone, cerebrospinal fluid (CSF) and gray matter on scalp potentials were examined with highly heterogeneous finite element models of an adult male subject. These models were constructed from segmented T1 weighted magnetic resonance images. Models had voxel resolutions of 1x1x3.2 mm with a total of about 1.5 million voxels. The scalp potentials, due to a dipolar source in the motor cortex area, were computed with an adaptive finite element solver. It was found that the scalp potentials were significantly affected by the soft bone, CSF and gray matter tissue boundaries in the models.

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P.H. Schimpf

The Influence of Brain Tissue Anisotropy on Human EEG and MEG

Influence of head models on EEG simulations and inverse source localizations

Dipole models for the EEG and MEG

Role of Soft Bone, CSF and Gray Matter in EEG Simulations

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