Despite their success, stenting procedures are still associated to some clinical problems like sub-acute thrombosis and in-stent restenosis. Several clinical studies associate these phenomena to a combination of both structural and hemodynamic alterations caused by stent implantation. Recently, numerical models have been widely used in the literature to investigate stenting procedures but always from either a purely structural or fluid dynamic point of view. The aim of this work is the implementation of sequential structural and fluid dynamic numerical models to provide a better understanding of stenting procedures in coronary bifurcations. In particular, the realistic geometrical configurations obtained with structural simulations were used to create the fluid domains employed within transient fluid dynamic analyses. This sequential approach was applied to investigate the final kissing balloon (FKB) inflation during the provisional side branch technique. Mechanical stresses in the arterial wall and the stent as well as wall shear stresses along the arterial wall were examined before and after the FKB deployment. FKB provoked average mechanical stresses in the arterial wall almost 2.5 times higher with respect to those induced by inflation of the stent in the main branch only. Results also enlightened FKB benefits in terms of improved local blood flow pattern for the side branch access. As a drawback, the FKB generates a larger region of low wall shear stress. In particular, after FKB the percentage of area characterized by wall shear stresses lower than 0.5 Pa was 79.0%, while before the FKB it was 62.3%. For these reasons, a new tapered balloon dedicated to bifurcations was proposed. The inclusion of the modified balloon has reduced the mechanical stresses in the proximal arterial vessel to 40% and the low wall shear stress coverage area to 71.3%. In conclusion, these results show the relevance of the adopted sequential approach to study the wall mechanics and the hemodynamics created by stent deployment.
Skip Nav Destination
e-mail: francesco.migliavacca@polimi.it
Article navigation
December 2011
Research Papers
Sequential Structural and Fluid Dynamic Numerical Simulations of a Stented Bifurcated Coronary Artery
Stefano Morlacchi,
Stefano Morlacchi
Laboratory of Biological Structure Mechanics, Structural Engineering Department, Politecnico di Milano, 20133 Milan, Italy; Department of Bioengineering,
Politecnico di Milano
, 20133 Milan, Italy
Search for other works by this author on:
Claudio Chiastra,
Claudio Chiastra
Laboratory of Biological Structure Mechanics, Structural Engineering Department, Politecnico di Milano, 20133 Milan, Italy; Department of Bioengineering,
Politecnico di Milano
, 20133 Milan, Italy
Search for other works by this author on:
Dario Gastaldi,
Dario Gastaldi
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
Search for other works by this author on:
Giancarlo Pennati,
Giancarlo Pennati
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
Search for other works by this author on:
Gabriele Dubini,
Gabriele Dubini
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
Search for other works by this author on:
Francesco Migliavacca
Francesco Migliavacca
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
e-mail: francesco.migliavacca@polimi.it
Politecnico di Milano
, 20133 Milan, Italy
Search for other works by this author on:
Stefano Morlacchi
Laboratory of Biological Structure Mechanics, Structural Engineering Department, Politecnico di Milano, 20133 Milan, Italy; Department of Bioengineering,
Politecnico di Milano
, 20133 Milan, Italy
Claudio Chiastra
Laboratory of Biological Structure Mechanics, Structural Engineering Department, Politecnico di Milano, 20133 Milan, Italy; Department of Bioengineering,
Politecnico di Milano
, 20133 Milan, Italy
Dario Gastaldi
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
Giancarlo Pennati
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
Gabriele Dubini
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
Francesco Migliavacca
Laboratory of Biological Structure Mechanics, Structural Engineering Department,
Politecnico di Milano
, 20133 Milan, Italy
e-mail: francesco.migliavacca@polimi.it
J Biomech Eng. Dec 2011, 133(12): 121010 (11 pages)
Published Online: December 29, 2011
Article history
Received:
February 23, 2011
Revised:
November 21, 2011
Online:
December 29, 2011
Published:
December 29, 2011
Citation
Morlacchi, S., Chiastra, C., Gastaldi, D., Pennati, G., Dubini, G., and Migliavacca, F. (December 29, 2011). "Sequential Structural and Fluid Dynamic Numerical Simulations of a Stented Bifurcated Coronary Artery." ASME. J Biomech Eng. December 2011; 133(12): 121010. https://doi.org/10.1115/1.4005476
Download citation file:
Get Email Alerts
Related Articles
Numerical Study of Shear-Induced Thrombus Formation Over Aterial Stent Struts
J. Med. Devices (June,2009)
Deployment of Interwoven Stents in an Artery With Moderate Stenosis
J. Med. Devices (June,2011)
Effect of Geometrical Assumptions on Numerical Modeling of Coronary Blood Flow Under Normal and Disease Conditions
J Biomech Eng (June,2010)
Influence of the Anatomical Structure on the Hemodynamics of Iliac Vein Stenosis
J Biomech Eng (January,2023)
Related Proceedings Papers
Related Chapters
mDFA Human Empirical Results
Modified Detrended Fluctuation Analysis (mDFA)
Vibration Analysis of the Seated Human Body in Vertical Direction
International Conference on Computer Technology and Development, 3rd (ICCTD 2011)
Dynamic Behavior in a Singular Delayed Bioeconomic Model
International Conference on Instrumentation, Measurement, Circuits and Systems (ICIMCS 2011)