2015
DOI: 10.1016/j.cmpb.2015.04.005
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Patient-specific computational modeling of blood flow in the pulmonary arterial circulation

Abstract: Computational fluid dynamics (CFD) modeling of the pulmonary vasculature has the potential to reveal continuum metrics associated with the hemodynamic stress acting on the vascular endothelium. It is widely accepted that the endothelium responds to flow-induced stress by releasing vasoactive substances that can dilate and constrict blood vessels locally. The objectives of this study are to examine the extent of patient specificity required to obtain a significant association of CFD output metrics and clinical … Show more

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Cited by 68 publications
(77 citation statements)
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“…Based on computational modeling results, an increase in PVR has been shown to be proportional to a decrease in WSS, which is also a function of the velocity gradient (4). This is consistent with the fact that vorticity decreases concurrently with an increase in PVR in all generations of the vascular tree (31). In fact, vorticity appears to decrease towards the periphery, where outflow resistance can exponentially increase with every advancing generation of the vascular tree, providing further evidence of the outlet boundary condition impacts the local velocity profile.…”
Section: Discussionsupporting
confidence: 89%
“…Based on computational modeling results, an increase in PVR has been shown to be proportional to a decrease in WSS, which is also a function of the velocity gradient (4). This is consistent with the fact that vorticity decreases concurrently with an increase in PVR in all generations of the vascular tree (31). In fact, vorticity appears to decrease towards the periphery, where outflow resistance can exponentially increase with every advancing generation of the vascular tree, providing further evidence of the outlet boundary condition impacts the local velocity profile.…”
Section: Discussionsupporting
confidence: 89%
“…[74] Simulations also revealed significantly lower shear stress in patient specific models of pulmonary hypertension, and correlated findings with gene regulation. [75]…”
Section: Pulmonary Arteries and Hypertensionmentioning
confidence: 82%
“…For the solid domain, both the inlet and the outlets are fixed, and the outer wall is traction free. We have not explored other possible outflow boundary conditions, such as the resistance boundary condition or the structured tree based outflow boundary condition . The fluid is characterized with viscosity μ f = 0.03 g/(cm s) and density ρ f = 1 g/cm 3 .…”
Section: Numerical Experiments and Observationsmentioning
confidence: 99%
“…The scalability is an useful metric for the parallel FSI algorithm since it implies that the algorithm is capable of solving the problem in a few hours, instead of days, and this is important for parameter studies or clinic applications. The impact of mesh density on the numerical solution is shown in Kheyfets et al for a steady fluid‐only simulation, where a mesh with a few millions elements is sufficient for the test problem since the solution is relatively smooth.…”
Section: Numerical Experiments and Observationsmentioning
confidence: 99%
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