An approach by researchers at the University of California shows that despite the functional importance of connections between far-reaching regions of the brain, the actual number of these connections is low.
The findings of the study were published in the journal 'PLOS Biology'.
In the new study, researchers combined diffusion MRI data from the Human Connectome Project with histological cross-sections of the corpus callosum, the major tract that connects the left and right sides of the brain.
The Human Connectome maps the strength of all connections in the brain but does not provide the actual number of axons, while the histological cross-sections allow estimates for how many axons are packed into a given volume. Combining the connection strengths with the axon densities yielded estimates for the number of axons in the cerebral cortex.
The analysis indicated that there are almost 2.5 billion long-range axons traversing the cerebral cortex. However, despite this large number, they found that the numbers connecting different functional brain regions were quite low. For example, among the estimated 130 million axons in the arcuate fasciculus tract, only about 1 to 2 million (less than 2 per cent) directly connected Broca's and Wernicke's areas, a connection which is necessary for normal language ability.
The model predicts that other long connections, like those from the hippocampus to the frontal cortex that are needed for memory retrieval, are actually made in multiple steps. The findings will thus improve models of cognition, especially processes that rely on connections between distal regions of the brain.
"A major unsolved problem is how the human cortex integrates information processing by its 16 billion neurons across its surface to unify awareness," Burke Rosen added. "Our finding that cortical areas are sparsely connected implies that this integration is accomplished either via linkage of the dense local connections or by rare, extraordinarily privileged long-range axons."
( With inputs from ANI )
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