BACKGROUND: The process of restenosis after a stenting procedure is related to local biomechanical environment. Arterial wall stresses caused by the interaction of the stent with the vascular wall and possibly stress induced stent strut fracture are two important parameters. The knowledge of these parameters after stent deployment in a patient derived 3D reconstruction of a diseased coronary artery might give insights in the understanding of the process of restenosis. METHODS: 3D reconstruction of a mildly stenosed coronary artery was carried out based on a combination of biplane angiography and intravascular ultrasound. Finite element method computations were performed to simulate the deployment of a stent inside the reconstructed coronary...
Following the deployment of a coronary stent and disruption of an atheromatous plaque, the deformati...
Structural and fluid stresses acting on the artery wall are proposed as mechanical mediators of in-s...
Computational models are used to study the combined effect of biomechanical and biochemical factors ...
BACKGROUND: The process of restenosis after a stenting procedure is related to local biomechanical e...
Summarization: The aim of this work is to introduce a methodology to study the stent expansion and t...
The aim of this work is to introduce a methodology to study the stent expansion and the subsequent ...
Coronary artery disease (CAD) remains the leading cause of death in Europe and worldwide. One of the...
Many clinical studies, including the ISAR-STEREO trial, have identified stent strut thickness as an ...
Coronary artery disease (CAD) remains the leading cause of death in Europe and worldwide. One of the...
Arterial stenosis is the obstruction of normal blood flow that is caused by atherosclerosis. One of ...
Nowadays, cardiac disease is one of the most common cause of death. Each year almost one million of ...
Stenting is becoming the major interventional cardiology procedure worldwide. However restenosis rem...
The current study presents computational models to investigate the poststenting hemodynamic stresses...
Following the deployment of a coronary stent and disruption of an atheromatous plaque, the deformati...
Structural and fluid stresses acting on the artery wall are proposed as mechanical mediators of in-s...
Computational models are used to study the combined effect of biomechanical and biochemical factors ...
BACKGROUND: The process of restenosis after a stenting procedure is related to local biomechanical e...
Summarization: The aim of this work is to introduce a methodology to study the stent expansion and t...
The aim of this work is to introduce a methodology to study the stent expansion and the subsequent ...
Coronary artery disease (CAD) remains the leading cause of death in Europe and worldwide. One of the...
Many clinical studies, including the ISAR-STEREO trial, have identified stent strut thickness as an ...
Coronary artery disease (CAD) remains the leading cause of death in Europe and worldwide. One of the...
Arterial stenosis is the obstruction of normal blood flow that is caused by atherosclerosis. One of ...
Nowadays, cardiac disease is one of the most common cause of death. Each year almost one million of ...
Stenting is becoming the major interventional cardiology procedure worldwide. However restenosis rem...
The current study presents computational models to investigate the poststenting hemodynamic stresses...
Following the deployment of a coronary stent and disruption of an atheromatous plaque, the deformati...
Structural and fluid stresses acting on the artery wall are proposed as mechanical mediators of in-s...
Computational models are used to study the combined effect of biomechanical and biochemical factors ...