File:Functional-Brain-Networks-Develop-from-a-“Local-to-Distributed”-Organization-pcbi.1000381.s008.ogv
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editDescriptionFunctional-Brain-Networks-Develop-from-a-“Local-to-Distributed”-Organization-pcbi.1000381.s008.ogv |
English: Over age, the graph architecture matures from a “local” organization to a “distributed” organization. This movie shows the dynamic development and interaction of positive correlations between the two task control networks, the default network, and cerebellar network using spring embedding. The figure highlights the segregation of local, anatomically clustered regions and the integration of functional networks over development. This is the full movie that Figure 3 is based on in the main text. Nodes are color coded by there adult network profile (core of the nodes) and also by there anatomical location (node outlines). Black - cingulo-opercular network; Yellow - fronto-parietal network; Red - default network; Blue - cerebellar; Light blue - frontal cortex; Grey - parietal cortex; Green - temporal cortex, Pink - cerebellum, Light pink - thalamus. At the beginning of the movie (i.e. in children) regions are largely organized by their anatomical location, but over age anatomically clustered regions segregate. The cluster of frontal regions (light blue outlines) best demonstrates this segregation. In addition, at the beginning of the movie (i.e., in children) the more distributed adult functional networks (core colors of nodes) are in many ways disconnected; however, over development the functional networks integrate. The isolated regions of the default network in childhood (Red) that coalesce into a highly correlated network best illustrate this integration. Over age node organization shifts from the “local” arrangement in children to the “distributed” organization commonly observed in adults.
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Source | Video S1 from Fair D, Cohen A, Power J, Dosenbach N, Church J, Miezin F, Schlaggar B, Petersen S. "Functional Brain Networks Develop from a “Local to Distributed” Organization". PLOS Computational Biology. DOI:10.1371/journal.pcbi.1000381. PMID 19412534. PMC: 2671306. | ||
Author | Fair D, Cohen A, Power J, Dosenbach N, Church J, Miezin F, Schlaggar B, Petersen S | ||
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This file is licensed under the Creative Commons Attribution 3.0 Unported license.
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 20:33, 23 September 2012 | 49 s, 1,024 × 768 (22.38 MB) | Open Access Media Importer Bot (talk | contribs) | Uploaded with the Open Access Media Importer. (test edit) botrequest |
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Short title | Video S1 |
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Author | Fair D, Cohen A, Power J, Dosenbach N, Church J, Miezin F, Schlaggar B, Petersen S |
Usage terms | http://creativecommons.org/licenses/by/3.0/ |
Image title | Over age, the graph architecture matures from a ?local? organization to a ?distributed? organization. This movie shows the dynamic development and interaction of positive correlations between the two task control networks, the default network, and cerebellar network using spring embedding. The figure highlights the segregation of local, anatomically clustered regions and the integration of functional networks over development. This is the full movie that Figure 3 is based on in the main text. Nodes are color coded by there adult network profile (core of the nodes) and also by there anatomical location (node outlines). Black - cingulo-opercular network; Yellow - fronto-parietal network; Red - default network; Blue - cerebellar; Light blue - frontal cortex; Grey - parietal cortex; Green - temporal cortex, Pink - cerebellum, Light pink - thalamus. At the beginning of the movie (i.e. in children) regions are largely organized by their anatomical location, but over age anatomically clustered regions segregate. The cluster of frontal regions (light blue outlines) best demonstrates this segregation. In addition, at the beginning of the movie (i.e., in children) the more distributed adult functional networks (core colors of nodes) are in many ways disconnected; however, over development the functional networks integrate. The isolated regions of the default network in childhood (Red) that coalesce into a highly correlated network best illustrate this integration. Over age node organization shifts from the ?local? arrangement in children to the ?distributed? organization commonly observed in adults. (9.68 MB MP4) |
Software used | Xiph.Org libtheora 1.1 20090822 (Thusnelda) |
Date and time of digitizing | 2009-05-01 |