Numerical simulation of electromagnetic field distribution induced in brain by electrical stimulation

Kim H.J.; Meng Z.J.; Sajib S.Z.K.; Chauhan M.; Jeong W.C.; Wi H.; Kwon O.I.; Woo E.J.; Oh T.I.

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Numerical simulation of electromagnetic field distribution induced in brain by electrical stimulation

机译：电刺激在大脑中诱发的电磁场分布的数值模拟

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Deep brain stimulation (DBS) is widely used for the treatment of various neurological diseases such as Parkinson's disease and tremors. Owing to the inherent limitations of the imaging modalities, physicians have a difficulty in the diagnosis of the exact response to the brain tissues during stimulation. Recent magnetic resonance (MR)-based electrical impedance tomography (MREIT) enables estimation of the current density distribution from the measured magnetic flux density data. Applying MREIT to DBS, one can predict the current pathway and electric field distribution which could be useful information for proving the therapeutic effects of electrical stimulation.

机译：深度脑刺激（DBS）被广泛用于治疗各种神经系统疾病，例如帕金森氏病和震颤。由于成像方式的固有局限性，医生在诊断刺激过程中对脑组织的确切反应方面存在困难。最近基于磁共振（MR）的电阻抗断层扫描（MREIT）能够从测得的磁通密度数据估算电流密度分布。将MREIT应用于DBS，可以预测电流通路和电场分布，这对于证明电刺激的治疗效果可能是有用的信息。

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《Electronics Letters》 |2014年第15期|1045-1047|共3页
作者
Kim H.J.; Meng Z.J.; Sajib S.Z.K.; Chauhan M.; Jeong W.C.; Wi H.; Kwon O.I.; Woo E.J.; Oh T.I.;
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Kyung Hee University, Republic of Korea;

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机译：神经系统电磁刺激线圈轮廓形状对感应电场分布的影响

Numerical simulation of electromagnetic field distribution induced in brain by electrical stimulation

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