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Main Authors: Leister, Robin, Karl, Roger, Stroh, Lubov, Mereles, Derliz, Eden, Matthias, Neff, Luis, de Simone, Raffaele, Romano, Gabriele, Kriegseis, Jochen, Karck, Matthias, Lichtenstern, Christoph, Frey, Norbert, Frohnapfel, Bettina, Stroh, Alexander, Engelhardt, Sandy
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.05224
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author Leister, Robin
Karl, Roger
Stroh, Lubov
Mereles, Derliz
Eden, Matthias
Neff, Luis
de Simone, Raffaele
Romano, Gabriele
Kriegseis, Jochen
Karck, Matthias
Lichtenstern, Christoph
Frey, Norbert
Frohnapfel, Bettina
Stroh, Alexander
Engelhardt, Sandy
author_facet Leister, Robin
Karl, Roger
Stroh, Lubov
Mereles, Derliz
Eden, Matthias
Neff, Luis
de Simone, Raffaele
Romano, Gabriele
Kriegseis, Jochen
Karck, Matthias
Lichtenstern, Christoph
Frey, Norbert
Frohnapfel, Bettina
Stroh, Alexander
Engelhardt, Sandy
contents The flow convergence method includes calculation of the proximal isovelocity surface area (PISA) and is widely used to classify mitral regurgitation (MR) with echocardiography. It constitutes a primary decision factor for determination of treatment and should therefore be a robust quantification method. However, it is known for its tendency to underestimate MR and its dependence on user expertise. The present work systematically compares different pulsatile flow profiles arising from different regurgitation orifices using transesophageal echocardiographic (TEE) probe and particle image velocimetry (PIV) as a reference in an in-vitro environment. It is found that the inter-observer variability using echocardiography is small compared to the systematic underestimation of the regurgitation volume for large orifice areas (up to 52%) where a violation of the flow convergence method assumptions occurs. From a flow perspective, a starting vortex was found as a dominant flow pattern in the regurgant jet for all orifice shapes and sizes. A series of simplified computational fluid dynamics (CFD) simulations indicate that selecting a suboptimal aliasing velocity during echocardiography measurements might be a primary source of potential underestimation in MR characterization via the PISA-based method, reaching up to 40%. In this study, it has been noted in clinical observations that physicians often select an aliasing velocity higher than necessary for optimal estimation in diagnostic procedures.
format Preprint
id arxiv_https___arxiv_org_abs_2403_05224
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Investigating the shortcomings of the Flow Convergence Method for quantification of Mitral Regurgitation in a pulsatile in-vitro environment and with Computational Fluid Dynamics
Leister, Robin
Karl, Roger
Stroh, Lubov
Mereles, Derliz
Eden, Matthias
Neff, Luis
de Simone, Raffaele
Romano, Gabriele
Kriegseis, Jochen
Karck, Matthias
Lichtenstern, Christoph
Frey, Norbert
Frohnapfel, Bettina
Stroh, Alexander
Engelhardt, Sandy
Fluid Dynamics
The flow convergence method includes calculation of the proximal isovelocity surface area (PISA) and is widely used to classify mitral regurgitation (MR) with echocardiography. It constitutes a primary decision factor for determination of treatment and should therefore be a robust quantification method. However, it is known for its tendency to underestimate MR and its dependence on user expertise. The present work systematically compares different pulsatile flow profiles arising from different regurgitation orifices using transesophageal echocardiographic (TEE) probe and particle image velocimetry (PIV) as a reference in an in-vitro environment. It is found that the inter-observer variability using echocardiography is small compared to the systematic underestimation of the regurgitation volume for large orifice areas (up to 52%) where a violation of the flow convergence method assumptions occurs. From a flow perspective, a starting vortex was found as a dominant flow pattern in the regurgant jet for all orifice shapes and sizes. A series of simplified computational fluid dynamics (CFD) simulations indicate that selecting a suboptimal aliasing velocity during echocardiography measurements might be a primary source of potential underestimation in MR characterization via the PISA-based method, reaching up to 40%. In this study, it has been noted in clinical observations that physicians often select an aliasing velocity higher than necessary for optimal estimation in diagnostic procedures.
title Investigating the shortcomings of the Flow Convergence Method for quantification of Mitral Regurgitation in a pulsatile in-vitro environment and with Computational Fluid Dynamics
topic Fluid Dynamics
url https://arxiv.org/abs/2403.05224