Computational Modeling with Fluid-Structure Interaction of the Severe M1 Stenosis Before and After Stenting

Park, Soonchan; Lee, Sang Wook; Lim, Ok Kyun; Min, In-Ki; Nguyen, M.T.; Ko, Young-Bae; Yoon, Kyung Hoon; Suh, Dae Chul

doi:10.5469/neuroint.2013.8.1.23

Cited by 9 publications

(5 citation statements)

References 19 publications

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“…The increased PWV around the plaque shown in Figures 2 and 3 is an observation that warrants further investigation through comparison with FSI simulations and phantom experiments. Most FSI studies of carotid arteries and stenosis have focused on wall shear stress, wall displacement, pressure, and flow velocity around the region of stenosis rather than wave propagation (Park et al, 2013;Tang et al, 2003;Teng et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

Pulse Wave Imaging in Carotid Artery Stenosis Human Patients in Vivo

Apostolakis

Kemper

et al. 2019

Ultrasound in Medicine & Biology

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Carotid stenosis involves narrowing of the lumen in the carotid artery potentially leading to a stroke, which is the third leading cause of death in the U.S. Several recent investigations have demonstrated that the plaque structure and composition may represent a more direct biomarker of plaque rupture risk compared to the degree of stenosis. In this study, Pulse Wave Imaging (PWI) was applied in eleven (n =11 patients, N =13 plaques) patients diagnosed with moderate (>50%) to severe (>80%) carotid artery stenosis in order to investigate the feasibility of characterizing plaque properties based on the pulse wave-induced arterial wall dynamics captured by PWI. Five (n =5 subjects, N =20 measurements) healthy volunteers were also imaged as a control group.Both conventional and high-frame rate plane wave RF imaging sequence were used to generate piecewise maps of the pulse wave velocity (PWV) at a single depth along stenotic carotid segments, as well as intra-plaque PWV mapping at multiple depths. Intra-plaque cumulative displacement and strain maps were also calculated for each plaque region. The Bramwell-Hill equation was used to estimate the compliance of the plaque regions based on the PWV and diameter.

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Section: Discussionmentioning

confidence: 99%

Pulse Wave Imaging in Carotid Artery Stenosis Human Patients in Vivo

Apostolakis

Kemper

et al. 2019

Ultrasound in Medicine & Biology

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“…Instead, simulations are usually conducted on a subregion of interest having a certain boundary with the surrounding environment. [1][2][3][4] Particularly in hemodynamics studies for cardiovascular applications, assigning appropriate boundary conditions is challenging in unsteady conditions. [5][6][7][8] For simulating fully developed turbulent flows using large eddy simulation (LES) and direct numerical solution (DNS), periodic boundary conditions are particularly useful, in that the computational domain can be reduced considerably since even a generally unsteady turbulent flow can be approximated as repeating itself over a certain distance.…”

Section: Introductionmentioning

confidence: 99%

A novel periodic boundary condition for computational hemodynamics studies

Bahramian

Mohammadi

2014

Proc Inst Mech Eng H

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In computational fluid dynamics models for hemodynamics applications, boundary conditions remain one of the major issues in obtaining accurate fluid flow predictions. For major cardiovascular models, the realistic boundary conditions are not available. In order to address this issue, the whole computational domain needs to be modeled, which is practically impossible. For simulating fully developed turbulent flows using the large eddy simulation and dynamic numerical solution methods, which are very popular in hemodynamics studies, periodic boundary conditions are suitable. This is mainly because the computational domain can be reduced considerably. In this study, a novel periodic boundary condition is proposed, which is based on mass flow condition. The proposed boundary condition is applied on a square duct for the sake of validation. The mass-based condition was shown to obtain the solution in 15% less time. As such, the mass-based condition has two decisive advantages: first, the solution for a given Reynolds number can be obtained in a single simulation because of the direct specification of the mass flow, and second, simulations can be made more quickly.

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“…Pre and post stent analysis was conducted at the bifurcation of intracranial artery. The velocity variations and the wall shear stresses are studied and compared to observe the effect of stent placement on flow dynamics at the bifurcation [7]. Hence, various medical conditions play a major role in atherosclerosis affected arteries.…”

Section: Analysis Of Bifurcated Femoral Arterymentioning

confidence: 99%

“…The maximum change in shear stress observed around the posterior wall did not have much effect on age groups. However, the intima media thickness increases with age [7,8]. Profunda femoris, medial and lateral femoral circumflex are the bifurcated arteries from the femoral artery.…”

Section: Introductionmentioning

confidence: 99%

Flow Dynamics and Wall Shear Stresses in a Bifurcated Femoral Artery

Gogineni¹,

Ts²

2017

J Biomed Eng Med Devic

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The present paper presents peak wall shear stresses and velocities in a bifurcated femoral artery. This artery is modeled along with blockage downstream of bifurcation, blockage at bifurcation, blockage downstream of stented femoral artery. The femoral artery is subjected to peripheral artery disease. A two-dimensional computational fluid dynamic analysis is conducted in all the models, assuming steady blood flow and seventy percent plaque. However, the blood viscosity and blood pressure vary in the femoral artery models as they are subjected to other medical conditions. Femoral artery bifurcates into profunda femoris and the bifurcation angles are assumed to vary at 30, 45 and 60 degrees. The blocked bifurcated artery is replaced with a wall stent and in many cases, a blockage develops downstream of the bifurcated stented artery as a consequence of stent implantation. The wall shear stresses and velocities results from the bifurcated and blocked femoral arterial models are compared to a normal artery characteristic. Further, a comparative study has been conducted along the blocked bifurcated artery with and without the stent.

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Computational Modeling with Fluid-Structure Interaction of the Severe M1 Stenosis Before and After Stenting

Cited by 9 publications

References 19 publications

Pulse Wave Imaging in Carotid Artery Stenosis Human Patients in Vivo

Pulse Wave Imaging in Carotid Artery Stenosis Human Patients in Vivo

A novel periodic boundary condition for computational hemodynamics studies

Flow Dynamics and Wall Shear Stresses in a Bifurcated Femoral Artery

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