ObjectiveModels of the cerebral microvasculature are required at many different scales in order to understand the effects of microvascular topology on CBF. There are, however, no data-driven models at the arteriolar/venular scale. In this paper, we develop a data-driven algorithm based on available data to generate statistically accurate penetrating arterioles and venules.MethodsA novel order-based density-filling algorithm is developed based on the statistical data including bifurcating angles, LDRs, and area ratios. Three thousand simulations are presented, and the results validated against morphological data. These are combined with a previous capillary network in order to calculate full vascular network parameters.ResultsStatistically a...
A method for developing 3D synthetic capillary networks representative of the geometric, topological...
Objectives The purpose of the research is the automatic processing and analysis of high-amount (near...
International audienceThe amazing topological and geometrical complexity of micro-vascular networks ...
Cerebrovascular diseases are by far the largest causes of death in the UK, as well as one of the lea...
The effect of the microvasculature on observed clinical parameters, such as cerebral blood flow, is ...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
The cerebral microvasculature plays a key role in the transport of blood and the delivery of nutrien...
Hemodynamically based functional neuroimaging techniques, such as BOLD fMRI and PET, provide indirec...
A computational method is presented for generating synthetic, random 3D capillary networks which mat...
Objective: Detailed information on microvascular network anatomy is a requirement for understanding ...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
Objective: Detailed information on microvascular network anatomy is a requirement for understand-ing...
The human brain microcirculation presents a dual multiscale architecture. On the one hand, the arter...
A method for developing 3D synthetic capillary networks representative of the geometric, topological...
Objectives The purpose of the research is the automatic processing and analysis of high-amount (near...
International audienceThe amazing topological and geometrical complexity of micro-vascular networks ...
Cerebrovascular diseases are by far the largest causes of death in the UK, as well as one of the lea...
The effect of the microvasculature on observed clinical parameters, such as cerebral blood flow, is ...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
The cerebral microvasculature plays a key role in the transport of blood and the delivery of nutrien...
Hemodynamically based functional neuroimaging techniques, such as BOLD fMRI and PET, provide indirec...
A computational method is presented for generating synthetic, random 3D capillary networks which mat...
Objective: Detailed information on microvascular network anatomy is a requirement for understanding ...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
Objective: Detailed information on microvascular network anatomy is a requirement for understand-ing...
The human brain microcirculation presents a dual multiscale architecture. On the one hand, the arter...
A method for developing 3D synthetic capillary networks representative of the geometric, topological...
Objectives The purpose of the research is the automatic processing and analysis of high-amount (near...
International audienceThe amazing topological and geometrical complexity of micro-vascular networks ...