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Experimentally constrained circuit model of cortical arteriole networks for understanding flow redistribution due to occlusion and neural activation.


ABSTRACT: Computations are described which estimate flows in all branches of the cortical surface arteriole network from two-photon excited fluorescence (2PEF) microscopy images which provide the network topology and, in selected branches red blood cell (RBC) speeds and lumen diameters. Validation is done by comparing the flow predicted by the model with experimentally measured flows and by comparing the predicted flow redistribution in the network due to single-vessel strokes with experimental observations. The model predicts that tissue is protected from RBC flow decreases caused by multiple occlusions of surface arterioles but not penetrating arterioles. The model can also be used to study flow rerouting due to vessel dilations and constrictions.

SUBMITTER: Bollu T 

PROVIDER: S-EPMC5757444 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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Experimentally constrained circuit model of cortical arteriole networks for understanding flow redistribution due to occlusion and neural activation.

Bollu Tejapratap T   Cornelius Nathan R NR   Sunwoo John J   Nishimura Nozomi N   Schaffer Chris B CB   Doerschuk Peter C PC  

Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism 20171113 1


Computations are described which estimate flows in all branches of the cortical surface arteriole network from two-photon excited fluorescence (2PEF) microscopy images which provide the network topology and, in selected branches red blood cell (RBC) speeds and lumen diameters. Validation is done by comparing the flow predicted by the model with experimentally measured flows and by comparing the predicted flow redistribution in the network due to single-vessel strokes with experimental observatio  ...[more]

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