Recent advances in modeling oxygen supply to cortical brain tissue have begun to elucidate the functional mechanisms of neurovascular coupling. While the principal mechanisms of blood flow regulation after neuronal firing are generally known, mechanistic hemodynamic simulations cannot yet pinpoint the exact spatial and temporal coordination between the network of arteries, arterioles, capillaries and veins for the entire brain. Because of the potential significance of blood flow and oxygen supply simulations for illuminating spatiotemporal regulation inside the cortical microanatomy, there is a need to create mathematical models of the entire cerebral circulation with realistic anatomical detail. Our hypothesis is that an anatomically accur...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
International audienceWe report new results on blood flow modeling over large volumes of cortical gr...
International audienceThe cerebral vasculature is a dense network of arteries, capillaries, and vein...
Recent advances in modeling oxygen supply to cortical brain tissue have begun to elucidate the funct...
The brain is vital for every human being and consequently its functioning is a highly relevant resea...
International audienceThe amazing topological and geometrical complexity of micro-vascular networks ...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
The brain accounts for around 2 % of human adult bodyweight but consumes 20 % of the resting oxygen ...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
Hemodynamically based functional neuroimaging techniques, such as BOLD fMRI and PET, provide indirec...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
The cerebral tissue requires a constant supply of oxygen and nutrients. This is maintained through d...
The human brain microcirculation presents a dual multiscale architecture. On the one hand, the arter...
Departures of normal blood flow and metabolite distribution from the cerebral microvasculature into ...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
International audienceWe report new results on blood flow modeling over large volumes of cortical gr...
International audienceThe cerebral vasculature is a dense network of arteries, capillaries, and vein...
Recent advances in modeling oxygen supply to cortical brain tissue have begun to elucidate the funct...
The brain is vital for every human being and consequently its functioning is a highly relevant resea...
International audienceThe amazing topological and geometrical complexity of micro-vascular networks ...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
The brain accounts for around 2 % of human adult bodyweight but consumes 20 % of the resting oxygen ...
A better knowledge of the flow and pressure distribution in realistic microvascular networks is need...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
Hemodynamically based functional neuroimaging techniques, such as BOLD fMRI and PET, provide indirec...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
The cerebral tissue requires a constant supply of oxygen and nutrients. This is maintained through d...
The human brain microcirculation presents a dual multiscale architecture. On the one hand, the arter...
Departures of normal blood flow and metabolite distribution from the cerebral microvasculature into ...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
International audienceWe report new results on blood flow modeling over large volumes of cortical gr...
International audienceThe cerebral vasculature is a dense network of arteries, capillaries, and vein...