电磁线圈
磁刺激
稳健性(进化)
探测线圈
线圈噪声
电场
声学
核磁共振
磁场
有限元法
材料科学
物理
罗戈夫斯基线圈
电气工程
工程类
刺激
化学
神经科学
磁通量
心理学
基因
热力学
生物化学
量子力学
作者
Keita Yamamoto,Momoko Suyama,Yoshihiro Takiyama,Dongmin Kim,Youichi Saitoh,Masaki Sekino
摘要
Transcranial magnetic stimulation (TMS) has recently been used as a method for the treatment of neurological and psychiatric diseases. Daily TMS sessions can provide continuous therapeutic effectiveness, and the installation of TMS systems at patients' homes has been proposed. A figure-eight coil, which is normally used for TMS therapy, induces a highly localized electric field; however, it is challenging to achieve accurate coil positioning above the targeted brain area using this coil. In this paper, a bowl-shaped coil for stimulating a localized but wider area of the brain is proposed. The coil's electromagnetic characteristics were analyzed using finite element methods, and the analysis showed that the bowl-shaped coil induced electric fields in a wider area of the brain model than a figure-eight coil. The expanded distribution of the electric field led to greater robustness of the coil to the coil-positioning error. To improve the efficiency of the coil, the relationship between individual coil design parameters and the resulting coil characteristics was numerically analyzed. It was concluded that lengthening the outer spherical radius and narrowing the width of the coil were effective methods for obtaining a more effective and more uniform distribution of the electric field.
科研通智能强力驱动
Strongly Powered by AbleSci AI