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W2207073905 endingPage "e1004532" @default.
W2207073905 startingPage "e1004532" @default.
W2207073905 abstract "The structure and quantitative composition of the cerebral cortex are interrelated with its computational capacity. Empirical data analyzed here indicate a certain hierarchy in local cortical composition. Specifically, neural wire, i.e., axons and dendrites take each about 1/3 of cortical space, spines and glia/astrocytes occupy each about (1/3)(2), and capillaries around (1/3)(4). Moreover, data analysis across species reveals that these fractions are roughly brain size independent, which suggests that they could be in some sense optimal and thus important for brain function. Is there any principle that sets them in this invariant way? This study first builds a model of local circuit in which neural wire, spines, astrocytes, and capillaries are mutually coupled elements and are treated within a single mathematical framework. Next, various forms of wire minimization rule (wire length, surface area, volume, or conduction delays) are analyzed, of which, only minimization of wire volume provides realistic results that are very close to the empirical cortical fractions. As an alternative, a new principle called spine economy maximization is proposed and investigated, which is associated with maximization of spine proportion in the cortex per spine size that yields equally good but more robust results. Additionally, a combination of wire cost and spine economy notions is considered as a meta-principle, and it is found that this proposition gives only marginally better results than either pure wire volume minimization or pure spine economy maximization, but only if spine economy component dominates. However, such a combined meta-principle yields much better results than the constraints related solely to minimization of wire length, wire surface area, and conduction delays. Interestingly, the type of spine size distribution also plays a role, and better agreement with the data is achieved for distributions with long tails. In sum, these results suggest that for the efficiency of local circuits wire volume may be more primary variable than wire length or temporal delays, and moreover, the new spine economy principle may be important for brain evolutionary design in a broader context." @default.
W2207073905 created "2016-06-24" @default.
W2207073905 creator A5074097875 @default.
W2207073905 date "2015-10-05" @default.
W2207073905 modified "2023-10-06" @default.
W2207073905 title "Cortical Composition Hierarchy Driven by Spine Proportion Economical Maximization or Wire Volume Minimization" @default.
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W2207073905 doi "https://doi.org/10.1371/journal.pcbi.1004532" @default.
W2207073905 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4593638" @default.
W2207073905 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26436731" @default.
W2207073905 hasPublicationYear "2015" @default.
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