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Other recent attempts have managed to provide fully annotated stained sections from three different microscopy contrasts and mapped the annotations to the montreal neurological institute (MNI) template ( 14, 15), or aligned microscopy and 3-T MRI covering the entire brain at 400 μm ( 16). Until now, only one 3D whole-brain map derived from microscopy with whole-brain coverage is openly available, providing details of cytoarchitecture from a single type of histological staining at the impressive resolution of 20 μm across sections and 21 μm in-plane ( 13). However, it remains a scientific tour de force to combine the exquisite detailed microscopy images and reconstruct them into an integrated view of the 3D anatomy of the human brain ( 12). These efforts range from inserting the classic microscopy preparations into existing modern anatomical templates ( 5, 6) to the creation of new three-dimensional (3D) atlases of increasingly smaller structures from submillimeter resolution in vivo or postmortem magnetic resonance imaging (MRI). Today, these anatomical mapping approaches can be combined with modern brain imaging and computing techniques. Entire research groups dedicated themselves to these endeavors, which led to the development of neuroanatomical methodology (e.g., immunohistochemistry) and the creation of classical maps by Brodmann ( 1), Vogt and Vogt ( 2), and von Economo and Koskinas. From the outset, the need to create systematic descriptions of the human brain has been clear. An exhaustive map of the human brain has been a long-sought goal of neuroanatomists.