Atherosclerosis is one of the key problems of modern medicine, which is due to the high
prevalence of atherosclerotic cardiovascular diseases and their significant share in the …

In vitro models of the vasculature play an important role in biomedical discovery research,
with diverse applications in vascular biology, drug discovery, and tissue engineering. These …

Atherosclerosis is an important problem in modern medicine, the keys to understanding
many aspects of which are still not available to clinicians. Atherosclerosis develops as a …

Background and objectives Real-time blood flow variation is crucial for understanding the
dynamic development of coronary atherosclerosis. The main objective of this study is to …

A conventional invasive catheterization procedure is currently used to detect atherosclerotic
severity in coronary arteries. However, it is still challenging to measure multiple consecutive …

This study aimed to develop a universal rheological blood model that reflects physiological
processes related to blood in any blood vessel. Blood is a multicomponent fluid and its …

As the main precursor of arterial disorders, endothelial dysfunction preferentially occurs in
regions of arteries prone to generating turbulent flow, particularly in branched regions of …

The research aims to verify the universal relationship between vessel shape and the risk of
hemolysis using a rheological model of blood reflecting the physiological processes related …

Replicating the contractile function of arterial tissues in vitro requires precise control of cell
alignment within 3D structures, a challenge that existing bioprinting techniques struggle to …

Due to the high degree of curvature of the coronary arteries, normal blood flow patterns are
disrupted, making them susceptible sites for stenosis and atherosclerosis, leading to …