A Study of white matter and skull inhomogeneous anisotropic tissue conductivities on EEG forward head modeling

机译：脑电正向建模中白质和颅骨各向异性组织电导率的研究

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The aim of this study is to investigate the effects of white matter (WM) and skull inhomogeneous anisotropic tissue conductivities on human head modeling. The inhomogeneity of WM and skull is included using fractional anisotropy (FA) method and the anisotropy is included according to Volume constraint in the head model construction. A fivelayered spherical head model implemented using finite element method (FEM) is used as a volume conductor with a known current source to measure the electroencephalogram (EEG) on the head surface. Statistical measurement techniques are applied to analyze the EEGs obtained from inhomogeneous anisotropic head models and a homogeneous isotropic model. This study finds that the effects of WM and skull inhomogeneous anisotropy on EEG are significant.

机译：这项研究的目的是调查白质（WM）和头骨非均质各向异性组织电导率对人头建模的影响。使用分数各向异性（FA）方法包括WM和头骨的不均匀性，并在头部模型构建中根据体积约束包括各向异性。使用有限元方法（FEM）实现的五层球形头部模型用作具有已知电流源的体导体，以测量头部表面的脑电图（EEG）。统计测量技术被用于分析从非均质各向异性水头模型和均质各向同性模型获得的脑电图。这项研究发现WM和颅骨的各向异性对脑电图的影响是显着的。

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来源
《Computer and Information Technology and Workshops (ICCIT), 2008 11th International Conference on; Khulna,Bangladesh》||P.7-13|共7页
会议地点 KhulnaBangladesh
作者
Bashar; Md. Rezaul; Li; Yan; Wen; Peng;
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原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
EEG; Fractional anisotropy; finite element method; forward problem; inhomogeneous anisotropic conductivity;

机译：脑电;分数维各向异性;有限元法;正问题;非均质各向异性;

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专利

1. Influence of anisotropic electrical conductivity in white matter tissue on the EEG/MEG forward and inverse solution. A high-resolution whole head simulation study. [J] . Gullmar D, Haueisen J, Reichenbach JR NeuroImage . 2010,第1期

机译：白质组织中各向异性电导率对EEG / MEG正向和反向溶液的影响。高分辨率全头仿真研究。
2. Influence of anisotropic conductivity in the skull and white matter on transcranial direct current stimulation via an anatomically realistic finite element head model [J] . SuhH.S., LeeW.H., KimT.-S. Physics in medicine and biology. . 2012,第21期

机译：颅骨和白质中各向异性电导率对解剖学逼真的有限元头部模型对经颅直流电刺激的影响
3. Uncertainty and sensitivity analysis for anisotropic inhomogeneous head tissue conductivity in human head modelling [J] . M. R. Bashar, Y. Li, P. Wen Australasian physical & engineering sciences in medicine . 2010,第2期

机译：人体头部各向异性各向异性组织电导率的不确定度和灵敏度分析
4. A Study of white matter and skull inhomogeneous anisotropic tissue conductivities on EEG forward head modeling [C] . Bashar Md. Rezaul, Li Yan, Wen Peng International Conference on Computer and Information Technology . 2008

机译：脑电前头建模白品和颅骨不均匀各向异性组织传导研究
5. Optimization of conductivity parameters of EEG head models using implanted sources in the human cranium. [D] . Taylor, Steve A. 1997

机译：使用人类颅骨中的植入源优化脑电图头部模型的电导率参数。
6. Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: Influence of white matter anisotropic conductivity [O] . Won Hee Lee, Zhi-De Deng, Tae-Seong Kim, -1

机译：实际有限元头模型电耦合治疗诱导的区域电场：白质各向异性电导率的影响
7. A study of white matter and skull inhomogeneous anisotropic tissue conductivities on EEG forward head modeling [O] . Bashar Md. Rezaul, Li Yan, Wen Peng 2008

机译：脑电正向建模中白质和颅骨各向异性组织电导率的研究

A Study of white matter and skull inhomogeneous anisotropic tissue conductivities on EEG forward head modeling

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