Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements

10.1186/1532-429X-12-5

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Main Authors:	Gatehouse, P, Rolf, M, Graves, M, Hofman, M, Totman, J, Werner, B, Quest, R, Liu, Y, Von Spiczak, J, Dieringer, M, Firmin, D, Van Rossum, A, Lombardi, M, Schwitter, J, Schulz-Menger, J, Kilner, P
Other Authors:	DIAGNOSTIC RADIOLOGY
Format:	Article
Published:	2020
Subjects:	gadolinium pentetate gelatin article blood flowmetry cardiovascular system examination diagnostic accuracy electrocardiography heart output measurement nuclear magnetic resonance imaging phase contrast microscope priority journal aorta artifact blood flow velocity breathing mechanics clinical trial computer assisted diagnosis heart output human image quality instrumentation materials testing mitral valve regurgitation multicenter study pathophysiology prediction and forecasting pulmonary artery reproducibility Aorta Artifacts Blood Flow Velocity Cardiac Output Gelatin Humans Image Interpretation, Computer-Assisted Magnetic Resonance Imaging, Cine Materials Testing Mitral Valve Insufficiency Phantoms, Imaging Predictive Value of Tests Pulmonary Artery Reproducibility of Results Respiratory Mechanics
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/183265
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Institution:	National University of Singapore

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spelling	sg-nus-scholar.10635-1832652024-11-08T20:17:03Z Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements Gatehouse, P Rolf, M Graves, M Hofman, M Totman, J Werner, B Quest, R Liu, Y Von Spiczak, J Dieringer, M Firmin, D Van Rossum, A Lombardi, M Schwitter, J Schulz-Menger, J Kilner, P DIAGNOSTIC RADIOLOGY gadolinium pentetate gelatin article blood flowmetry cardiovascular system examination diagnostic accuracy electrocardiography heart output measurement nuclear magnetic resonance imaging phase contrast microscope priority journal aorta artifact blood flow velocity breathing mechanics clinical trial computer assisted diagnosis heart output human image quality instrumentation materials testing mitral valve regurgitation multicenter study pathophysiology prediction and forecasting pulmonary artery reproducibility Aorta Artifacts Blood Flow Velocity Cardiac Output Gelatin Humans Image Interpretation, Computer-Assisted Magnetic Resonance Imaging, Cine Materials Testing Mitral Valve Insufficiency Phantoms, Imaging Predictive Value of Tests Pulmonary Artery Reproducibility of Results Respiratory Mechanics 10.1186/1532-429X-12-5 Journal of Cardiovascular Magnetic Resonance 12 1 5 2020-11-10T00:42:01Z 2020-11-10T00:42:01Z 2010 Article Gatehouse, P, Rolf, M, Graves, M, Hofman, M, Totman, J, Werner, B, Quest, R, Liu, Y, Von Spiczak, J, Dieringer, M, Firmin, D, Van Rossum, A, Lombardi, M, Schwitter, J, Schulz-Menger, J, Kilner, P (2010). Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements. Journal of Cardiovascular Magnetic Resonance 12 (1) : 5. ScholarBank@NUS Repository. https://doi.org/10.1186/1532-429X-12-5 10976647 https://scholarbank.nus.edu.sg/handle/10635/183265 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20201031
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	gadolinium pentetate gelatin article blood flowmetry cardiovascular system examination diagnostic accuracy electrocardiography heart output measurement nuclear magnetic resonance imaging phase contrast microscope priority journal aorta artifact blood flow velocity breathing mechanics clinical trial computer assisted diagnosis heart output human image quality instrumentation materials testing mitral valve regurgitation multicenter study pathophysiology prediction and forecasting pulmonary artery reproducibility Aorta Artifacts Blood Flow Velocity Cardiac Output Gelatin Humans Image Interpretation, Computer-Assisted Magnetic Resonance Imaging, Cine Materials Testing Mitral Valve Insufficiency Phantoms, Imaging Predictive Value of Tests Pulmonary Artery Reproducibility of Results Respiratory Mechanics
spellingShingle	gadolinium pentetate gelatin article blood flowmetry cardiovascular system examination diagnostic accuracy electrocardiography heart output measurement nuclear magnetic resonance imaging phase contrast microscope priority journal aorta artifact blood flow velocity breathing mechanics clinical trial computer assisted diagnosis heart output human image quality instrumentation materials testing mitral valve regurgitation multicenter study pathophysiology prediction and forecasting pulmonary artery reproducibility Aorta Artifacts Blood Flow Velocity Cardiac Output Gelatin Humans Image Interpretation, Computer-Assisted Magnetic Resonance Imaging, Cine Materials Testing Mitral Valve Insufficiency Phantoms, Imaging Predictive Value of Tests Pulmonary Artery Reproducibility of Results Respiratory Mechanics Gatehouse, P Rolf, M Graves, M Hofman, M Totman, J Werner, B Quest, R Liu, Y Von Spiczak, J Dieringer, M Firmin, D Van Rossum, A Lombardi, M Schwitter, J Schulz-Menger, J Kilner, P Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
description	10.1186/1532-429X-12-5
author2	DIAGNOSTIC RADIOLOGY
author_facet	DIAGNOSTIC RADIOLOGY Gatehouse, P Rolf, M Graves, M Hofman, M Totman, J Werner, B Quest, R Liu, Y Von Spiczak, J Dieringer, M Firmin, D Van Rossum, A Lombardi, M Schwitter, J Schulz-Menger, J Kilner, P
format	Article
author	Gatehouse, P Rolf, M Graves, M Hofman, M Totman, J Werner, B Quest, R Liu, Y Von Spiczak, J Dieringer, M Firmin, D Van Rossum, A Lombardi, M Schwitter, J Schulz-Menger, J Kilner, P
author_sort	Gatehouse, P
title	Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
title_short	Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
title_full	Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
title_fullStr	Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
title_full_unstemmed	Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
title_sort	flow measurement by cardiovascular magnetic resonance: a multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/183265
_version_	1821207356423274496

Flow measurement by cardiovascular magnetic resonance: A multi-centre multi-vendor study of background phase offset errors that can compromise the accuracy of derived regurgitant or shunt flow measurements

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