A Centerpiece of Ebrains’ Human Brain Atlas

Summary: A new human brain atlas features 250 structurally distinct areas, each based on the analysis of ten brains. Over 2400 brain sections were digitalized and assembled in 3D to create the new map.

Source: Human Brain Project

The atlas features close to 250 structurally distinct areas, each one based on the analysis of 10 brains. More than 24000 extremely thin brain sections were digitized, assembled in 3D and mapped by experts. As part of the new EBRAINS infrastructure of the European Human Brain Project, the atlas serves as an interface to link different information about the brain in a spatially precise way. German researchers led by Prof. Katrin Amunts have now presented the new brain atlas in the renowned journal Science.

Under the microscope, it can be seen that the human brain is not uniformly structured, but divided into clearly distinguishable areas. They differ in the distribution and density of nerve cells and in function. With the Julich-Brain, researchers led by Katrin Amunts now present the most comprehensive digital map of the cellular architecture and make it available worldwide via the EBRAINS research infrastructure.

“On the one hand, the digital brain atlas will help to interpret the results of neuroimaging studies, for example of patients, more accurately”, says Katrin Amunts, Director at the German Research Center Juelich and Professor at the University of Duesseldorf. “On the other hand, it is becoming the basis for a kind of ‘Google Earth’ of the brain – because the cellular level is the best interface for linking data about very different facets of the brain.

A Google Earth of the Brain

In this way, the researchers are making a significant contribution to the Human Brain Project (HBP), for which the European Commission just approved 150 million Euro until 2023. “Together with many partners in this project, we are building EBRAINS as a novel high-tech research infrastructure for the neurosciences,” says Amunts, who is also the Scientific Research Director of the project.

More than a quarter century of research has gone into the 3D atlas. Dozens of experts have used image analysis and mathematical algorithms to evaluate the tissue sections over the years and determine the boundaries between brain areas, which together make up a length of almost 2000 meters.

Regions vary in their difference

Mapping showed that areas vary between different brains, for example in terms of size and location. The Julich-Brain therefore displays the position and shape of individual regions as “probability maps”. The researchers found particularly large differences in the Broca region, which is involved in language. In contrast, the primary visual area appeared much more uniform.

This shows the map
The architecture of the nerve cells changes at the border between two areas (dotted line). This is the basis for mapping. The areas of the brains studied are transferred in the Julich-Brain Atlas and superimposed. Since the areas between the individual brains vary, probability maps are calculated (right brain hemisphere; red means a high probability and therefore a low variability). The left brain hemisphere shows the map of maximum probabilities for simultaneous representation of several brain areas. Image is credited to Forschungszentrum Juelich / Katrin Amunts.

As part of EBRAINS, the Julich Brain Atlas is the starting point for bringing structure and function together. The atlas is already helping to link data on gene expression, connectivity and functional activity, for example, to better understand brain functions and the mechanisms of diseases. “EBRAINS also enables us to use the maps for simulations or to apply artificial intelligence to explore the division of labor between brain areas. The huge amounts of data generated from this are processed using the EBRAINS computing platform.” The computational power comes from the new European supercomputing network FENIX, which is formed by five leading centres for High Performance Computing, including the Julich Supercomputing Centre (JSC).

Digital brain science

“It is exciting to see how far the combination of brain research and digital technologies has progressed,” says Amunts. “Many of these developments converge in the Julich-Brain-Atlas and on EBRAINS. They help us – and more and more researchers worldwide – to better understand the complex organization of the brain and to jointly uncover how things are connected.”

About this neuroscience research article

Source:
Human Brain Project
Media Contacts:
Peter Zekert – Human Brain Project
Image Source:
The image is credited to Forschungszentrum Juelich / Katrin Amunts.


Original Research: Closed access
“Julich-Brain: A 3D probabilistic atlas of the human brain’s cytoarchitecture” by Katrin Amunts, Hartmut Mohlberg, Sebastian Bludau, Karl Zilles. Science.

Abstract

Julich-Brain: A 3D probabilistic atlas of the human brain’s cytoarchitecture

Cytoarchitecture is a basic principle of microstructural brain parcellation. Here we introduce Julich-Brain, a 3D atlas containing cytoarchitectonic maps of cortical areas and subcortical nuclei. The atlas is probabilistic to consider variations between individual brains. Building such an atlas was highly data- and labor-intensive and required to develop nested, interdependent workflows for detecting borders between brain areas, data processing, provenance tracking, and flexible execution of processing chains to handle large amounts of data at different spatial scales. Gap maps complement cortical maps to achieve full cortical coverage. The atlas concept is dynamic, i.e., continuously adapted with progress in mapping, openly available to support neuroimaging studies of healthy subjects and patients, as well as modeling and simulation, and interoperable, to link with other atlases and recourses.

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