Real-time estimation of electric fields induced by transcranial magnetic stimulation with deep neural networks

Tutkimustuotos: Lehtiartikkelivertaisarvioitu


  • Tatsuya Yokota
  • Toyohiro Maki
  • Tatsuya Nagata
  • Takenobu Murakami
  • Yoshikazu Ugawa
  • Ilkka Laakso

  • Akimasa Hirata
  • Hidekata Hontani


  • Nagoya Institute of Technology
  • Fukushima Medical University


Background: Transcranial magnetic stimulation (TMS) plays an important role in treatment of mental and neurological illnesses, and neurosurgery. However, it is difficult to target specific brain regions accurately because the complex anatomy of the brain substantially affects the shape and strength of the electric fields induced by the TMS coil. A volume conductor model can be used for determining the accurate electric fields; however, the construction of subject-specific anatomical head structures is time-consuming. Objective: The aim of this study is to propose a method to estimate electric fields induced by TMS from only T1 magnetic resonance (MR) images, without constructing a subject-specific anatomical model. Methods: Very large sets of electric fields in the brain of subject-specific anatomical models, which are constructed from T1 and T2 MR images, are computed by a volume conductor model. The relation between electric field distribution and T1 MR images is used for machine learning. Deep neural network (DNN) models are applied for the first time to electric field estimation. Results: By determining the relationships between the T1 MR images and electric fields by DNN models, the process of electric field estimation is markedly accelerated (to 0.03 s) due to the absence of a requirement for anatomical head structure reconstruction and volume conductor computation. Validation shows promising estimation accuracy, and rapid computations of the DNN model are apt for practical applications. Conclusion: The study showed that the DNN model can estimate the electric fields from only T1 MR images and requires low computation time, suggesting the possibility of using machine learning for real-time electric field estimation in navigated TMS.


JulkaisuBrain Stimulation
TilaSähköinen julkaisu (e-pub) ennen painettua julkistusta - heinäkuuta 2019
OKM-julkaisutyyppiA1 Julkaistu artikkeli, soviteltu

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