Purpose: Brain hemodynamics is fundamental for the functioning of the human being. Many biophysical factors affect brain circulation, so that a satisfactory understanding of its behavior is challenging. We developed a mathematical model to simulate cerebral and extracerebral flows and pressures in humans. Methods: The model is composed of an anatomically informed 1-D arterial network, and two 0-D networks of the cerebral circulation and brain drainage, respectively. It takes into account the pulse-wave transmission properties of the 55 main arteries and the main hydraulic and autoregulation mechanisms ensuring blood supply and drainage to the brain. Proper pressure outputs from the arterial 1-D model are used as input to the 0-D models, tog...
The paper presents the results of experiments concerning flow in the model of cerebral supplying art...
The Circle of Willis (CoW) is a ring-like structure of blood vessels found at the base of the brain....
We describe a mathematical model linking changes in cerebral blood flow, blood volume and the blood ...
Cerebral hemodynamics in humans is affected by postural changes (variations of the brain-axis direct...
We developed a mathematical model of the cerebral venous outflow for the simulation of the average b...
The brain accounts for around 2 % of human adult bodyweight but consumes 20 % of the resting oxygen ...
The mathematical relationships between cerebral perfusion pressure (CPP), intracranial pressure (ICP...
A comprehensive computer model of the cerebral circulation, based on both hydrodynamics and electric...
The cerebral tissue requires a constant supply of oxygen and nutrients. This is maintained through d...
we developed a comprehensive cerebral blood flow and intracranial pressure model to simulate and stu...
none9siAlterations in the extracranial venous circulation due to posture changes, and/or extracrania...
A comprehensive mathematical model of cerebral hemodynamics, with separate regulation of multiple br...
The cerebral circulation is unique in its ability to maintain blood flow to the brain under widely v...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
The paper presents the results of experiments concerning flow in the model of cerebral supplying art...
The Circle of Willis (CoW) is a ring-like structure of blood vessels found at the base of the brain....
We describe a mathematical model linking changes in cerebral blood flow, blood volume and the blood ...
Cerebral hemodynamics in humans is affected by postural changes (variations of the brain-axis direct...
We developed a mathematical model of the cerebral venous outflow for the simulation of the average b...
The brain accounts for around 2 % of human adult bodyweight but consumes 20 % of the resting oxygen ...
The mathematical relationships between cerebral perfusion pressure (CPP), intracranial pressure (ICP...
A comprehensive computer model of the cerebral circulation, based on both hydrodynamics and electric...
The cerebral tissue requires a constant supply of oxygen and nutrients. This is maintained through d...
we developed a comprehensive cerebral blood flow and intracranial pressure model to simulate and stu...
none9siAlterations in the extracranial venous circulation due to posture changes, and/or extracrania...
A comprehensive mathematical model of cerebral hemodynamics, with separate regulation of multiple br...
The cerebral circulation is unique in its ability to maintain blood flow to the brain under widely v...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
The paper presents the results of experiments concerning flow in the model of cerebral supplying art...
The Circle of Willis (CoW) is a ring-like structure of blood vessels found at the base of the brain....
We describe a mathematical model linking changes in cerebral blood flow, blood volume and the blood ...