Literature DB >> 22016327

In vivo validation of numerical prediction for turbulence intensity in an aortic coarctation.

Amirhossein Arzani1, Petter Dyverfeldt, Tino Ebbers, Shawn C Shadden.   

Abstract

This paper compares numerical predictions of turbulence intensity with in vivo measurement. Magnetic resonance imaging (MRI) was carried out on a 60-year-old female with a restenosed aortic coarctation. Time-resolved three-directional phase-contrast (PC) MRI data was acquired to enable turbulence intensity estimation. A contrast-enhanced MR angiography (MRA) and a time-resolved 2D PCMRI measurement were also performed to acquire data needed to perform subsequent image-based computational fluid dynamics (CFD) modeling. A 3D model of the aortic coarctation and surrounding vasculature was constructed from the MRA data, and physiologic boundary conditions were modeled to match 2D PCMRI and pressure pulse measurements. Blood flow velocity data was subsequently obtained by numerical simulation. Turbulent kinetic energy (TKE) was computed from the resulting CFD data. Results indicate relative agreement (error ≈10%) between the in vivo measurements and the CFD predictions of TKE. The discrepancies in modeled vs. measured TKE values were within expectations due to modeling and measurement errors.

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Year:  2011        PMID: 22016327      PMCID: PMC3880395          DOI: 10.1007/s10439-011-0447-6

Source DB:  PubMed          Journal:  Ann Biomed Eng        ISSN: 0090-6964            Impact factor:   3.934


  32 in total

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2.  MRI and CFD studies of pulsatile flow in healthy and stenosed carotid bifurcation models.

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3.  Computer simulation of arterial flow with applications to arterial and aortic stenoses.

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5.  Quantification of hemodynamics in abdominal aortic aneurysms during rest and exercise using magnetic resonance imaging and computational fluid dynamics.

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Journal:  Ann Biomed Eng       Date:  2010-02-09       Impact factor: 3.934

6.  In vitro validation of finite-element model of AAA hemodynamics incorporating realistic outlet boundary conditions.

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7.  AORTIC COARCTATION: RECENT DEVELOPMENTS IN EXPERIMENTAL AND COMPUTATIONAL METHODS TO ASSESS TREATMENTS FOR THIS SIMPLE CONDITION.

Authors:  John F Ladisa; Charles A Taylor; Jeffrey A Feinstein
Journal:  Prog Pediatr Cardiol       Date:  2010-12-01

8.  In vitro validation of finite element analysis of blood flow in deformable models.

Authors:  Ethan O Kung; Andrea S Les; C Alberto Figueroa; Francisco Medina; Karina Arcaute; Ryan B Wicker; Michael V McConnell; Charles A Taylor
Journal:  Ann Biomed Eng       Date:  2011-03-15       Impact factor: 3.934

9.  In vivo validation of numerical prediction of blood flow in arterial bypass grafts.

Authors:  Joy P Ku; Mary T Draney; Frank R Arko; W Anthony Lee; Frandics P Chan; Norbert J Pelc; Christopher K Zarins; Charles A Taylor
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10.  Assessment of fluctuating velocities in disturbed cardiovascular blood flow: in vivo feasibility of generalized phase-contrast MRI.

Authors:  Petter Dyverfeldt; John-Peder Escobar Kvitting; Andreas Sigfridsson; Jan Engvall; Ann F Bolger; Tino Ebbers
Journal:  J Magn Reson Imaging       Date:  2008-09       Impact factor: 4.813
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  17 in total

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2.  A Re-Engineered Software Interface and Workflow for the Open-Source SimVascular Cardiovascular Modeling Package.

Authors:  Hongzhi Lan; Adam Updegrove; Nathan M Wilson; Gabriel D Maher; Shawn C Shadden; Alison L Marsden
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3.  Turbulent Intensity of Blood Flow in the Healthy Aorta Increases With Dobutamine Stress and is Related to Cardiac Output.

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4.  Magnetic resonance measurement of turbulent kinetic energy for the estimation of irreversible pressure loss in aortic stenosis.

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6.  Characterization of the transport topology in patient-specific abdominal aortic aneurysm models.

Authors:  Amirhossein Arzani; Shawn C Shadden
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7.  Age-Related Vascular Changes Affect Turbulence in Aortic Blood Flow.

Authors:  Hojin Ha; Magnus Ziegler; Martin Welander; Niclas Bjarnegård; Carl-Johan Carlhäll; Marcus Lindenberger; Toste Länne; Tino Ebbers; Petter Dyverfeldt
Journal:  Front Physiol       Date:  2018-01-25       Impact factor: 4.566

Review 8.  4D flow cardiovascular magnetic resonance consensus statement.

Authors:  Petter Dyverfeldt; Malenka Bissell; Alex J Barker; Ann F Bolger; Carl-Johan Carlhäll; Tino Ebbers; Christopher J Francios; Alex Frydrychowicz; Julia Geiger; Daniel Giese; Michael D Hope; Philip J Kilner; Sebastian Kozerke; Saul Myerson; Stefan Neubauer; Oliver Wieben; Michael Markl
Journal:  J Cardiovasc Magn Reson       Date:  2015-08-10       Impact factor: 5.364

9.  Effects of Variations of Flow and Heart Rate on Intra-Aneurysmal Hemodynamics in a Ruptured Internal Carotid Artery Aneurysm During Exercise.

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10.  Turbulent Kinetic Energy Measurement Using Phase Contrast MRI for Estimating the Post-Stenotic Pressure Drop: In Vitro Validation and Clinical Application.

Authors:  Hojin Ha; Guk Bae Kim; Jihoon Kweon; Hyung Kyu Huh; Sang Joon Lee; Hyun Jung Koo; Joon-Won Kang; Tae-Hwan Lim; Dae-Hee Kim; Young-Hak Kim; Namkug Kim; Dong Hyun Yang
Journal:  PLoS One       Date:  2016-03-15       Impact factor: 3.240
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