Guy N. Elston, Laurence J. Garey: The cytoarchitectonic map of Korbinian Brodmann: Arealisation and circuit specialization -- Lazaros C. Triarhou: The cytoarchitectonic map of Constantin von Economo and Georg N. Koskinas -- Rudolf Nieuwenhuys: The myeloarchitectonic studies on the human cerebral cortex of the Vogt - Vogt school, and their significance for the interpretation of functional neuroimaging data -- Bruce Fischl: Estimating the location of Brodmann Areas from cortical folding patterns using histology and ex vivo MRI -- Simon B. Eickhoff, Danilo Bzdok: Database-driven identification of functional modules in the cerebral cortex -- Robert Turner: Where matters: New approaches to brain analysis -- Robert Turner: MRI methods for in-vivo cortical parcellation -- Nicholas A. Bock, Afonso C. Silva: Visualizing myeloarchitecture in vivo with magnetic resonance imaging in common marmosets (Callithrix jacchus) -- Stefan Geyer: High-field magnetic resonance mapping of the border between primary motor (area 4) and somatosensory (area 3a) cortex in ex-vivo and in-vivo human brains.

Unraveling the functional properties of structural elements in the brain is one of the fundamental goals of neuroscientific research. In the cerebral cortex this is no mean feat, since cortical areas are defined microstructurally in post-mortem brains but functionally in living brains with electrophysiological or neuroimaging techniques – and cortical areas vary in their topographical properties across individual brains. Being able to map both microstructure and function in the same brains noninvasively in vivo would represent a huge leap forward. In recent years, high-field magnetic resonance imaging (MRI) technologies with spatial resolution below 0.5 mm have set the stage for this by detecting structural differences within the human cerebral cortex, beyond the Stria of Gennari. This provides the basis for an in vivo microanatomical brain map, with the enormous potential to make direct correlations between microstructure and function in living human brains. This book starts with Brodmann’s post-mortem map published in the early 20th century, moves on to the almost forgotten microstructural maps of von Economo and Koskinas and the Vogt-Vogt school, sheds some light on more recent approaches that aim at mapping cortical areas noninvasively in living human brains, and culminates with the concept of “in vivo Brodmann mapping” using high-field MRI, which was introduced in the early 21st century.