Titlebook: Brain and Human Body Modeling; Computational Human Sergey Makarov,Marc Horner,Gregory Noetscher Book‘‘‘‘‘‘‘‘ 2019 The Editor(s) (if applic

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Book‘‘‘‘‘‘‘‘ 2019tic safety, andexposure evaluations;.Includes a survey of modern applicationsfor which computational human models are critical;.Describes cellular-level interactionsbetween the human body and electromagnetic fields.. .

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Finite Element Modelling Framework for Electroconvulsive Therapy and Other Transcranial Stimulationsulation is provided. Procedures outlined include image segmentation, white matter anisotropy extraction, meshing and finite element model implementation. The computational modelling methods described here can be used, for example, for future novel designs of improved ECT protocols.

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Design and Analysis of a Whole-Body Noncontact Electromagnetic Subthreshold Stimulation Device with ould probably combine the best of transcutaneous electric nerve stimulation, or TENS, and transcranial magnetic stimulation, or TMS. In the first case, it is a continuous and flexible operation, while in the second case, it is painless, noncontact, and provides deep field penetration..This study is

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Patient-Specific RF Safety Assessment in MRI: Progress in Creating Surface-Based Human Head and Shoucan be fulfilled with anatomically correct surface-based human models and EM solvers based on unstructured meshes. Here, we report . our workflow used to generate the surface meshes of a head and torso model from the segmented AustinMan dataset, . head and torso model mesh optimization for three-dim

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