- Poster presentation
- Open Access
Global network community and non-uniform cell density in the macaque brain
BMC Neurosciencevolume 15, Article number: P100 (2014)
The important question, how the global network architecture connecting cortical regions keeps balances between integration and segregation of information processes, have been asked to understand the design of the brain [1, 2]. This study aimed to clarify how topological characteristics of such global network architecture relate with physiological characteristics inside of segmented cortical regions in the monkey brain . Especially, I focused on cell densities (densities of neurons or non-neurons) as the representative characteristics of segmented cortical regions , and compared the cell densities with network topologies of cortico-cortical fiber tracts [Figure1-A]. To reduce biases in comparisons, I surveyed many topological measures as wide as possible. Total number of evaluated network measures was 27.
As the result, surprisingly, only participation coefficient (PCs) showed significant correlations with cell densities . Although a previous study reported that cell densities significantly change on the anterior-posterior coordinate , spatial coordinates did not correlate significantly with participation coefficients. Participation coefficient is the topological measure evaluating how often each node (segmented brain region) connects to other nodes locating different communities (modules). The modules, which detected based on a computational criterion , corresponded with visual, somatosensory, auditory, and two associative modules [Figure1-C]. The associative modules simultaneously showed low neuron density and high participation coefficient, which means there are diversive connections with different modules. These findings led us to the conclusion that the brain is designed for achieving integrative information process at associative brain regions by sacrificing number of elements (neurons).
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M.S. is grateful to Yasuo Kawaguchi, John M. Beggs, and Olaf Sporns for their important discussions. This study was supported by a Grant-in-Aid for JSPS Fellows for Research Abroad.