2021
DOI: 10.3389/fcvm.2020.593709
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Hemodynamic Modeling of Biological Aortic Valve Replacement Using Preoperative Data Only

Abstract: Objectives: Prediction of aortic hemodynamics after aortic valve replacement (AVR) could help optimize treatment planning and improve outcomes. This study aims to demonstrate an approach to predict postoperative maximum velocity, maximum pressure gradient, secondary flow degree (SFD), and normalized flow displacement (NFD) in patients receiving biological AVR.Methods: Virtual AVR was performed for 10 patients, who received actual AVR with a biological prosthesis. The virtual AVRs used only preoperative anatomi… Show more

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Cited by 10 publications
(9 citation statements)
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“…Since only one SAPIEN 3 prosthesis was available as a model for reconstruction, the other prostheses and sizes used in the intervention were estimated by scaling the SAPIEN's geometry according to the dimensions given by the manufacturers. Representations of the Carpentier‐Edwards Magna Ease (Figure 1) were generated as described in Hellmeier et al 15 For virtual AVR‐procedure, two free edge loops were added to the annular base of the valve, projecting above and below the valve as cylinder‐shaped extensions, enabling a merging to the aorta's geometry and achieving the correct mesh topology.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Since only one SAPIEN 3 prosthesis was available as a model for reconstruction, the other prostheses and sizes used in the intervention were estimated by scaling the SAPIEN's geometry according to the dimensions given by the manufacturers. Representations of the Carpentier‐Edwards Magna Ease (Figure 1) were generated as described in Hellmeier et al 15 For virtual AVR‐procedure, two free edge loops were added to the annular base of the valve, projecting above and below the valve as cylinder‐shaped extensions, enabling a merging to the aorta's geometry and achieving the correct mesh topology.…”
Section: Methodsmentioning
confidence: 99%
“…This contrasts with findings of Pibarot et al stating that in patients with comparable anulus diameter, the orifice area of TAVI and SAVR does not differ. 8 Since selection of SAVR size based on MDCT usually results in an oversizing of at least one size, 15,18 we decided to virtually implant each patient with a SAVR prosthesis one size smaller than the one originally selected, except for cases 7 and 15, since the narrowest prosthesis was already selected here.…”
Section: Statisticsmentioning
confidence: 99%
“…Detailed reviews on different modeling approaches in cardiovascular medicine are provided by Quarteroni et al ( 12 ), Doost et al ( 13 ), and Hirschhorn et al ( 14 ). Such image-based CFD frameworks can also be employed to investigate post-operative outcomes after virtual treatment ( 5 , 15 , 16 ). Furthermore, CFD can complement cardiac computed tomography (CCT) by functional analysis of patient-specific intraventricular hemodynamics via so-called CCT-based CFD ( 17 ).…”
Section: Introductionmentioning
confidence: 99%
“…Computational methods and image-based modeling provide tools to investigate several hemodynamic parameters on the basis of patient specific input data. Such approaches have, for instance, been applied to investigate left ventricular hemodynamic flow structures ( 22 24 ), the outcome after implantation of biological and mechanical aortic valve prostheses ( 25 ), MV tissue properties ( 26 ), as well as mitral hemodynamics with and without simulation of diseases and treatment ( 27 ). Caballero et al ( 18 ) and Errthum et al ( 28 ) were the first to use advanced computational methods to systematically investigate post-interventional hemodynamic characteristics for one case and several TEER strategies, as well as for specific devices.…”
Section: Introductionmentioning
confidence: 99%