Abstract — Main cause of restenosis after balloon angio-plasty is due to the stresses generated in the artery as well as from the stent artery interaction. Understanding the factors that are involved in this interaction, and the ability to evaluate the stresses that are formed in the artery, could help to lessen the number of failures. The goal of the present study is to develop computationally efficient numerical models for esti-mating the Damage Factor (DF) as the contact stresses, and to investigate their influence upon stent design, artery and plaque parameters. At first the artery was taken as a hollow cylinder with homogenous, linear elastic properties of the material. Later, the artery was taken as a two dissimilar layers model, with...
The aim of this work is to introduce a methodology to study the stent expansion and the subsequent ...
Supplementary information files for 'Finite element evaluation of artery damage in deployment of pol...
Computational models are used to study the combined effect of biomechanical and biochemical factors ...
Two commercially available stents (the Palmaz–Schatz (PS) and S670 stents) with reported high and lo...
The stent-artery interactions have been increasingly studied using the finite element method for bet...
Atherosclerosis is a progressive vascular disease, in which the arterial wall thickens compared to i...
Short-term and long-term clinical follow-up data clearly indicate the superiority of stenting techni...
The current study presents computational models to investigate the poststenting hemodynamic stresses...
Short-term and long-term clinical follow-up data clearly indicate the superiority of stenting techni...
BACKGROUND: The process of restenosis after a stenting procedure is related to local biomechanical e...
Nowadays, cardiac disease is one of the most common cause of death. Each year almost one million of ...
Many clinical studies, including the ISAR-STEREO trial, have identified stent strut thickness as an ...
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 ...
Supplementary information files for 'Finite element evaluation of artery damage in deployment of pol...
Computational models are used to study the combined effect of biomechanical and biochemical factors ...
Two commercially available stents (the Palmaz–Schatz (PS) and S670 stents) with reported high and lo...
The stent-artery interactions have been increasingly studied using the finite element method for bet...
Atherosclerosis is a progressive vascular disease, in which the arterial wall thickens compared to i...
Short-term and long-term clinical follow-up data clearly indicate the superiority of stenting techni...
The current study presents computational models to investigate the poststenting hemodynamic stresses...
Short-term and long-term clinical follow-up data clearly indicate the superiority of stenting techni...
BACKGROUND: The process of restenosis after a stenting procedure is related to local biomechanical e...
Nowadays, cardiac disease is one of the most common cause of death. Each year almost one million of ...
Many clinical studies, including the ISAR-STEREO trial, have identified stent strut thickness as an ...
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 ...
Supplementary information files for 'Finite element evaluation of artery damage in deployment of pol...
Computational models are used to study the combined effect of biomechanical and biochemical factors ...