The need for correct realistic geometry in the inverse EEG problem

G.J.M. Huiskamp; M. Vroeijenstijn; R. van Dijk; G.H. Wieneke; A.C. van Huffelen

The need for correct realistic geometry in the inverse EEG problem

G.J.M. Huiskamp, M. Vroeijenstijn, R. van Dijk, G.H. Wieneke, A.C. van Huffelen

Neurology & Neurosurgery

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

For accurate electroencephalogram-based localization of mesial temporal and frontal sources correct modeling of skull shape and thickness is required. In a simulation study in which results for matched sets of computed tomography and magnetic resonance (MR) images are compared, it is found that errors arising from skull models based on smooth and inflated segmented MR images of the cortex are of the order of I cm, These errors are comparable to those found when overestimating or underestimating skull conductivity by a factor of two.

Original language	English
Pages (from-to)	1281-1287
Number of pages	7
Journal	IEEE Transactions on Biomedical Engineering
Volume	46
Issue number	11
Publication status	Published - Nov 1999

Keywords

boundary element method (BEM)
dipole modeling
electroencephalogram (EEG)
epilepsy surgery
realistic head model
SHAPED HEAD
LOCALIZATION
ACCURACY
EPILEPSY
MODEL

Cite this

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title = "The need for correct realistic geometry in the inverse EEG problem",

abstract = "For accurate electroencephalogram-based localization of mesial temporal and frontal sources correct modeling of skull shape and thickness is required. In a simulation study in which results for matched sets of computed tomography and magnetic resonance (MR) images are compared, it is found that errors arising from skull models based on smooth and inflated segmented MR images of the cortex are of the order of I cm, These errors are comparable to those found when overestimating or underestimating skull conductivity by a factor of two.",

keywords = "boundary element method (BEM), dipole modeling, electroencephalogram (EEG), epilepsy surgery, realistic head model, SHAPED HEAD, LOCALIZATION, ACCURACY, EPILEPSY, MODEL",

author = "G.J.M. Huiskamp and M. Vroeijenstijn and {van Dijk}, R. and G.H. Wieneke and {van Huffelen}, A.C.",

year = "1999",

month = nov,

language = "English",

volume = "46",

pages = "1281--1287",

journal = "IEEE Transactions on Biomedical Engineering",

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T1 - The need for correct realistic geometry in the inverse EEG problem

AU - Huiskamp, G.J.M.

AU - Vroeijenstijn, M.

AU - van Dijk, R.

AU - Wieneke, G.H.

AU - van Huffelen, A.C.

PY - 1999/11

Y1 - 1999/11

N2 - For accurate electroencephalogram-based localization of mesial temporal and frontal sources correct modeling of skull shape and thickness is required. In a simulation study in which results for matched sets of computed tomography and magnetic resonance (MR) images are compared, it is found that errors arising from skull models based on smooth and inflated segmented MR images of the cortex are of the order of I cm, These errors are comparable to those found when overestimating or underestimating skull conductivity by a factor of two.

AB - For accurate electroencephalogram-based localization of mesial temporal and frontal sources correct modeling of skull shape and thickness is required. In a simulation study in which results for matched sets of computed tomography and magnetic resonance (MR) images are compared, it is found that errors arising from skull models based on smooth and inflated segmented MR images of the cortex are of the order of I cm, These errors are comparable to those found when overestimating or underestimating skull conductivity by a factor of two.

KW - boundary element method (BEM)

KW - dipole modeling

KW - electroencephalogram (EEG)

KW - epilepsy surgery

KW - realistic head model

KW - SHAPED HEAD

KW - LOCALIZATION

KW - ACCURACY

KW - EPILEPSY

KW - MODEL

M3 - Article

SN - 0018-9294

VL - 46

SP - 1281

EP - 1287

JO - IEEE Transactions on Biomedical Engineering

JF - IEEE Transactions on Biomedical Engineering

IS - 11

ER -

The need for correct realistic geometry in the inverse EEG problem

Abstract

Keywords

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