Computational modeling can assist researchers to further understand the mechanism in and around the human brain. However, there are significant differences between brain geometries, so macroscopic models can require person-specific meshes. Therefore, we will go through the process of making a patient-specific volumetric mesh from T1-weighted magnetic resonance images. The resulting mesh will include structures such as the cerebellum, subarachnoid space, cisterna magna, and foramen magnum.

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Meshing the intracranial compartments: The cerebellum, cerebrum, brainstem, and cerebrospinal fluid

  • Lars Magnus Valnes,
  • Kent-Andre Mardal

摘要

Computational modeling can assist researchers to further understand the mechanism in and around the human brain. However, there are significant differences between brain geometries, so macroscopic models can require person-specific meshes. Therefore, we will go through the process of making a patient-specific volumetric mesh from T1-weighted magnetic resonance images. The resulting mesh will include structures such as the cerebellum, subarachnoid space, cisterna magna, and foramen magnum.