Add to ORKGThe vascular system of the human brain cortex is composed of a space filling mesh-like capillary network connected upstream and downstream to branched quasi-fractal arterioles and venules. The distribution of blood flow rates in these networks may affect the efficiency of oxygen transfer processes. Here, we investigate the distribution and correlation properties of blood flow velocities from numerical simulations in large 3D human intra-cortical vascular network ( 10000 segments) obtained from an anatomical database. In each segment, flow is solved from a 1D non-linear model taking account of the complex rheological properties of blood flow in microcirculation to deduce blood pressure, blood flow and red blood cell volume fraction distribut...
International audienceDespite the key role of the capillaries in neurovascular function, a thorough ...
A computational method is presented for generating synthetic, random 3D capillary networks which mat...
Capillary flow is known to be non-homogenous between vessels and variable over time, for reasons tha...
International audienceWe report new results on blood flow modeling over large volumes of cortical gr...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
Hemodynamically based functional neuroimaging techniques, such as BOLD fMRI and PET, provide indirec...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
We report new results on blood flow modeling over large volumes of cortical gray matter of primate b...
A computational method is presented for generating 3D synthetic, random capillary networks which mat...
Mathematical models can serve as useful tools to better understand physiology and biological phenome...
In a companion paper (Lorthois et al., Neuroimage, inpress),we perform the first simulations of bloo...
Despite the key role of the capillaries in neurovascular function, a thorough characterization of ce...
International audienceDespite the key role of the capillaries in neurovascular function, a thorough ...
A computational method is presented for generating synthetic, random 3D capillary networks which mat...
Capillary flow is known to be non-homogenous between vessels and variable over time, for reasons tha...
International audienceWe report new results on blood flow modeling over large volumes of cortical gr...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
Hemodynamically based functional neuroimaging techniques, such as BOLD fMRI and PET, provide indirec...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
We report new results on blood flow modeling over large volumes of cortical gray matter of primate b...
A computational method is presented for generating 3D synthetic, random capillary networks which mat...
Mathematical models can serve as useful tools to better understand physiology and biological phenome...
In a companion paper (Lorthois et al., Neuroimage, inpress),we perform the first simulations of bloo...
Despite the key role of the capillaries in neurovascular function, a thorough characterization of ce...
International audienceDespite the key role of the capillaries in neurovascular function, a thorough ...
A computational method is presented for generating synthetic, random 3D capillary networks which mat...
Capillary flow is known to be non-homogenous between vessels and variable over time, for reasons tha...