We discuss, from the perspective of basic science, the physical and biological processes which underlie atherosclerotic (plaque) initiation at the vascular endothelium, identifying the widely separated spatial and temporal scales which participate. We draw on current, related models of vessel wall evolution, paying particular attention to the role of particulate flow (blood is not a continuum fluid), and proceed to propose, then validate all the key components in a multiply-coupled, multi-scale modeling strategy (in qualitative terms only, note). Eventually, this strategy should lead to a quantitative, patient-specific understanding of the coupling between particulate flow and the endothelial state
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
The arterial wall is exposed to mechanical forces associated with the flowing blood. In vivo the art...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
We discuss, from the perspective of basic science, the physical and biological processes which under...
We discuss, from the perspective of basic science, the physical and biological processes which under...
We discuss, from the perspective of basic science, the physical and biological processes which under...
The study of blood dynamics requires the inclusion of several levels of description, ranging from th...
The objective of this research is to investigate both mathematically and numerically the effects of ...
Atherosclerotic plaques are found at distinct locations in the arterial system, despite the exposure...
The inflammatory process of atherosclerosis leads to the formation of an atheroma plaque in the bloo...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...
Atherosclerotic plaques develop preferentially in curved and branching arteries in-vivo. Lipids and ...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...
Mechanical signal transduction in endothelial cells leads to the differential expression of genes, r...
Background: Both clinical images and in vivo observations have demonstrated the heterogeneity in ath...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
The arterial wall is exposed to mechanical forces associated with the flowing blood. In vivo the art...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
We discuss, from the perspective of basic science, the physical and biological processes which under...
We discuss, from the perspective of basic science, the physical and biological processes which under...
We discuss, from the perspective of basic science, the physical and biological processes which under...
The study of blood dynamics requires the inclusion of several levels of description, ranging from th...
The objective of this research is to investigate both mathematically and numerically the effects of ...
Atherosclerotic plaques are found at distinct locations in the arterial system, despite the exposure...
The inflammatory process of atherosclerosis leads to the formation of an atheroma plaque in the bloo...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...
Atherosclerotic plaques develop preferentially in curved and branching arteries in-vivo. Lipids and ...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...
Mechanical signal transduction in endothelial cells leads to the differential expression of genes, r...
Background: Both clinical images and in vivo observations have demonstrated the heterogeneity in ath...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
The arterial wall is exposed to mechanical forces associated with the flowing blood. In vivo the art...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...