期刊论文详细信息
International Neurourology Journal
Realistic Electric Field Mapping of Anisotropic Muscle During Electrical Stimulation Using a Combination of Water Diffusion Tensor and Electrical Conductivity
Bup Kyung Choi1  Oh In Kwon2  Jin Woong Kim3  Saurav ZK Sajib4  Eung Je Woo4  Tong In Oh4  Hyung Joong Kim4 
[1] Department of Biomedical Engineering, Kyung Hee University, Yongin, Korea;Department of Mathematics, Konkuk University, Seoul, Korea;Department of Radiology, Chonnam National University Medical School, Gwangju, Korea;Impedance Imaging Research Center, Kyung Hee University, Seoul, Korea;
关键词: Electric Field;    Electrical Stimulation;    Anisotropy;    Magnetic Resonance Electrical Impedance Tomography;    Diffusion Tensor Imaging;   
DOI  :  10.5213/inj.1734878.439
来源: DOAJ
【 摘 要 】

Purpose To realistically map the electric fields of biological tissues using a diffusion tensor magnetic resonance electrical impedance tomography (DT-MREIT) method to estimate tissue response during electrical stimulation. Methods Imaging experiments were performed using chunks of bovine muscle. Two silver wire electrodes were positioned inside the muscle tissue for electrical stimulation. Electric pulses were applied with a 100-V amplitude and 100-μs width using a voltage stimulator. During electrical stimulation, we collected DT-MREIT data from a 3T magnetic resonance imaging scanner. We adopted the projected current density method to calculate the electric field. Based on the relation between the water diffusion tensor and the conductivity tensor, we computed the position-dependent scale factor using the measured magnetic flux density data. Then, a final conductivity tensor map was reconstructed using the multiplication of the water diffusion tensor and the scale factor. Results The current density images from DT-MREIT data represent the internal current flows that exist not only in the electrodes but also in surrounding regions. The reconstructed electric filed map from our anisotropic conductivity tensor with the projected current density shows coverage that is more than 2 times as wide, and higher signals in both the electrodes and surrounding tissues, than the previous isotropic method owing to the consideration of tissue anisotropy. Conclusions An electric field map obtained by an anisotropic reconstruction method showed different patterns from the results of the previous isotropic reconstruction method. Since accurate electric field mapping is important to correctly estimate the coverage of the electrical treatment, future studies should include more rigorous validations of the new method through in vivo and in situ experiments.

【 授权许可】

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