Cardiovascular diseases are the leading causes of morbidity and mortality globally. Heart disease and stroke contribute to most fatalities in which atherosclerotic plaque disruption is the underlying pathology. The pulsatile blood flow in the arteries generates mechanical stresses that affect the rupture of the atherosclerotic plaque. Fatigue failure being the accumulation of the damage due to repeated loading that occurs when the stresses are much lower than those needed to rupture the plaque with normal loading. Therefore, fracture mechanics concepts were used to investigate the impact of morphology and blood pressure on the plaque life. Incremental fatigue crack propagation simulations were performed on idealized geometries based on the ...
International audienceAtherosclerotic plaque rupture remains the leading cause of acute coronary syn...
Fatigue resistance of Nitinol peripheral stents implanted into femoropopliteal arteries is a critica...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...
Cardiovascular diseases are the leading causes of morbidity and mortality globally. Heart disease an...
Rupture of atheromatous plaque is the major cause of stroke or heart attack. Considering that the ca...
Myocardial infarction contributes to most fatalities in which atherosclerotic plaque disruption is t...
It is well known that mechanics of atherosclerotic plaques significantly depend on plaque geometry, ...
Identification of vulnerable plaque pre-rupture is extremely important for patient risk stratificati...
Empirical thesis.Bibliography: pages 140-152.Chapter 1. Introduction -- Chapter 2. Literature review...
Coronary stent fracture is still an unresolved issue in the field of minimally invasive cardiovascul...
In 2015, cardiovascular diseases caused the death of 17.7 million people - 31 % of all deaths global...
The aim of this study is to explore major mechanisms of atherosclerotic plaque growth, presenting a ...
Biomechanical models allow stress analysis and can predict stress peaks in atherosclerotic plaques. ...
BACKGROUND: Rupture of atheromatous plaque in the carotid artery often leads to thrombosis and subse...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...
International audienceAtherosclerotic plaque rupture remains the leading cause of acute coronary syn...
Fatigue resistance of Nitinol peripheral stents implanted into femoropopliteal arteries is a critica...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...
Cardiovascular diseases are the leading causes of morbidity and mortality globally. Heart disease an...
Rupture of atheromatous plaque is the major cause of stroke or heart attack. Considering that the ca...
Myocardial infarction contributes to most fatalities in which atherosclerotic plaque disruption is t...
It is well known that mechanics of atherosclerotic plaques significantly depend on plaque geometry, ...
Identification of vulnerable plaque pre-rupture is extremely important for patient risk stratificati...
Empirical thesis.Bibliography: pages 140-152.Chapter 1. Introduction -- Chapter 2. Literature review...
Coronary stent fracture is still an unresolved issue in the field of minimally invasive cardiovascul...
In 2015, cardiovascular diseases caused the death of 17.7 million people - 31 % of all deaths global...
The aim of this study is to explore major mechanisms of atherosclerotic plaque growth, presenting a ...
Biomechanical models allow stress analysis and can predict stress peaks in atherosclerotic plaques. ...
BACKGROUND: Rupture of atheromatous plaque in the carotid artery often leads to thrombosis and subse...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...
International audienceAtherosclerotic plaque rupture remains the leading cause of acute coronary syn...
Fatigue resistance of Nitinol peripheral stents implanted into femoropopliteal arteries is a critica...
Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial,...