Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study

Dandan Yan; Xiaotong Zhang; Nuo Gao; Shanan Zhu; Bryon Mueller; Kelvin Lim; Zhongming Liu; Bin He

doi:10.1109/NFSI-ICFBI.2007.4387702

Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study

Dandan Yan, Xiaotong Zhang, Nuo Gao, Shanan Zhu, Bryon Mueller, Kelvin Lim, Zhongming Liu, Bin He

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

5 Scopus citations

Abstract

Magnetic Resonance Electrical Impedance Tomography (MREIT) is used to reconstruct the conductivities of the brain tissues, including the isotropic CSF, gray matter and the anisotropic white matter. The target conductivity of the anisotropic white matter is based on the data from Diffusion Tensor Magnetic Resonance Imaging. A series of computer simulation results suggest the feasibility of the proposed RBF-MREIT algorithm and its fast convergence feature together with improved robustness against noise.

Original language	English (US)
Title of host publication	Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007
Pages	117-119
Number of pages	3
DOIs	https://doi.org/10.1109/NFSI-ICFBI.2007.4387702
State	Published - 2007
Event	2007 Joint Meeting of the 6th International Symposium on Noninvasive Functional Source Imaging of the Brain and Heart and the International Conference on Functional Biomedical Imaging, NFSI and ICFBI 2007 - Hangzhou, China Duration: Oct 12 2007 → Oct 14 2007

Publication series

Name	Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007

Other

Other	2007 Joint Meeting of the 6th International Symposium on Noninvasive Functional Source Imaging of the Brain and Heart and the International Conference on Functional Biomedical Imaging, NFSI and ICFBI 2007
Country/Territory	China
City	Hangzhou
Period	10/12/07 → 10/14/07

Access

10.1109/NFSI-ICFBI.2007.4387702

OpenUrl availability

Full text

Cite this

Yan, D., Zhang, X., Gao, N., Zhu, S., Mueller, B., Lim, K., Liu, Z., & He, B. (2007). Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study. In Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007 (pp. 117-119). Article 4387702 (Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007). https://doi.org/10.1109/NFSI-ICFBI.2007.4387702

Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study. / Yan, Dandan; Zhang, Xiaotong; Gao, Nuo et al.
Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007. 2007. p. 117-119 4387702 (Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yan, D, Zhang, X, Gao, N, Zhu, S, Mueller, B , Lim, K, Liu, Z & He, B 2007, Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study. in Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007., 4387702, Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007, pp. 117-119, 2007 Joint Meeting of the 6th International Symposium on Noninvasive Functional Source Imaging of the Brain and Heart and the International Conference on Functional Biomedical Imaging, NFSI and ICFBI 2007, Hangzhou, China, 10/12/07. https://doi.org/10.1109/NFSI-ICFBI.2007.4387702

Yan D, Zhang X, Gao N, Zhu S, Mueller B , Lim K et al. Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study. In Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007. 2007. p. 117-119. 4387702. (Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007). doi: 10.1109/NFSI-ICFBI.2007.4387702

Yan, Dandan ; Zhang, Xiaotong ; Gao, Nuo et al. / Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging : A simulation study. Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007. 2007. pp. 117-119 (Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007).

@inproceedings{9aa13fd9b7004815b335e95fde3b7e06,

title = "Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study",

abstract = "Magnetic Resonance Electrical Impedance Tomography (MREIT) is used to reconstruct the conductivities of the brain tissues, including the isotropic CSF, gray matter and the anisotropic white matter. The target conductivity of the anisotropic white matter is based on the data from Diffusion Tensor Magnetic Resonance Imaging. A series of computer simulation results suggest the feasibility of the proposed RBF-MREIT algorithm and its fast convergence feature together with improved robustness against noise.",

author = "Dandan Yan and Xiaotong Zhang and Nuo Gao and Shanan Zhu and Bryon Mueller and Kelvin Lim and Zhongming Liu and Bin He",

year = "2007",

doi = "10.1109/NFSI-ICFBI.2007.4387702",

language = "English (US)",

isbn = "1424409489",

series = "Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007",

pages = "117--119",

booktitle = "Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007",

note = "2007 Joint Meeting of the 6th International Symposium on Noninvasive Functional Source Imaging of the Brain and Heart and the International Conference on Functional Biomedical Imaging, NFSI and ICFBI 2007 ; Conference date: 12-10-2007 Through 14-10-2007",

}

TY - GEN

T1 - Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging

T2 - 2007 Joint Meeting of the 6th International Symposium on Noninvasive Functional Source Imaging of the Brain and Heart and the International Conference on Functional Biomedical Imaging, NFSI and ICFBI 2007

AU - Yan, Dandan

AU - Zhang, Xiaotong

AU - Gao, Nuo

AU - Zhu, Shanan

AU - Mueller, Bryon

AU - Lim, Kelvin

AU - Liu, Zhongming

AU - He, Bin

PY - 2007

Y1 - 2007

N2 - Magnetic Resonance Electrical Impedance Tomography (MREIT) is used to reconstruct the conductivities of the brain tissues, including the isotropic CSF, gray matter and the anisotropic white matter. The target conductivity of the anisotropic white matter is based on the data from Diffusion Tensor Magnetic Resonance Imaging. A series of computer simulation results suggest the feasibility of the proposed RBF-MREIT algorithm and its fast convergence feature together with improved robustness against noise.

AB - Magnetic Resonance Electrical Impedance Tomography (MREIT) is used to reconstruct the conductivities of the brain tissues, including the isotropic CSF, gray matter and the anisotropic white matter. The target conductivity of the anisotropic white matter is based on the data from Diffusion Tensor Magnetic Resonance Imaging. A series of computer simulation results suggest the feasibility of the proposed RBF-MREIT algorithm and its fast convergence feature together with improved robustness against noise.

UR - http://www.scopus.com/inward/record.url?scp=48049106483&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=48049106483&partnerID=8YFLogxK

U2 - 10.1109/NFSI-ICFBI.2007.4387702

DO - 10.1109/NFSI-ICFBI.2007.4387702

M3 - Conference contribution

AN - SCOPUS:48049106483

SN - 1424409489

SN - 9781424409488

T3 - Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007

SP - 117

EP - 119

BT - Proc. of 2007 Joint Meet. of the 6th Int. Symp. on Noninvasive Functional Source Imaging of the Brain and Heart and the Int. Conf. on Functional Biomedical Imaging, NFSI and ICFBI 2007

Y2 - 12 October 2007 through 14 October 2007

ER -

Brain tissue conductivity reconstruction based on diffusion tensor magnetic resonance imaging: A simulation study

Abstract

Publication series

Other

Access

OpenUrl availability

Other files and links

Fingerprint

Cite this