Resumen
Objective: The accumulated evidence on angioplasty techniques with stents has raised a controversy about the factors that influence the final vascular response. Indeed, several studies have shown there might be re-stenosis between 30% to 40% about 6 months after placement, relating to the design of the device as one of the main causes. This paper proposes the functional characterization of endovascular stents, analyzing its mechanical influence in the vascular system and predicting implicit traumatic factors in the vessel. Methods: A structural analysis was made for several computational models of endovascular stents using Finite Element Analysis in order to predict the mechanical behavior and the vascular trauma. In this way, the stents were considered as tubular devices composed of multiple links under radial pressure loads, reflecting stress concentration effects. Results: The analysis allowed to visualize how the geometry of stents is adjusted under several load conditions, in order to obtain the response of "solid-solid" interaction between the stent and the arterial wall. Thus, an analysis was performed in order to calculate stress, and a conceptual model that explains its mechanical impact on the stent-vessel interaction, was raised, to infer on the functionality from the design of the devices. Conclusions: The proposed conceptual model allows to determine the relationship between the conditions of mechanical interaction of the stents, and warns about the effects in what would be the operation of the device on the vascular environment.
Título traducido de la contribución | Proposed model of vascular trauma by mean of mechanical characterization of endovascular prostheses (stents) based on structural analysis by FEA |
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Idioma original | Español |
Páginas (desde-hasta) | 260-270 |
Número de páginas | 11 |
Publicación | Archivos de Cardiologia de Mexico |
Volumen | 86 |
N.º | 3 |
DOI | |
Estado | Publicada - 1 jul. 2016 |
Nota bibliográfica
Publisher Copyright:© 2016 Instituto Nacional de Cardiología Ignacio Chávez.
Palabras clave
- Angioplasty
- Colombia
- Computational models
- Finite elements analysis
- Mechanical characterization
- Vascular biomechanics
- Vascular stent