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https://doi.org/10.1016/j.ijcard.2021.01.066
Title: | Standard and emerging CMR methods for mitral regurgitation quantification | Authors: | Fidock, Benjamin Archer, Gareth Barker, Natasha Elhawaz, Alaa Al-Mohammad, Abdallah Rothman, Alexander Hose, Rod Hall, Ian R Grech, Ever Briffa, Norman Lewis, Nigel van der Geest, Rob J Zhang, Jun-Mei Zhong, Liang Swift, Andrew J Wild, James M De Garate, Estefania Bucciarelli-Ducci, Chiara Bax, Jeroen J Plein, Sven Myerson, Saul Garg, Pankaj |
Keywords: | Science & Technology Life Sciences & Biomedicine Cardiac & Cardiovascular Systems Cardiovascular System & Cardiology Mitral valve insufficiency Reproducibility of results Magnetic resonance imaging CARDIOVASCULAR MAGNETIC-RESONANCE 4-DIMENSIONAL FLOW BLOOD-FLOW VALVE |
Issue Date: | 29-Mar-2021 | Publisher: | ELSEVIER IRELAND LTD | Citation: | Fidock, Benjamin, Archer, Gareth, Barker, Natasha, Elhawaz, Alaa, Al-Mohammad, Abdallah, Rothman, Alexander, Hose, Rod, Hall, Ian R, Grech, Ever, Briffa, Norman, Lewis, Nigel, van der Geest, Rob J, Zhang, Jun-Mei, Zhong, Liang, Swift, Andrew J, Wild, James M, De Garate, Estefania, Bucciarelli-Ducci, Chiara, Bax, Jeroen J, Plein, Sven, Myerson, Saul, Garg, Pankaj (2021-03-29). Standard and emerging CMR methods for mitral regurgitation quantification. INTERNATIONAL JOURNAL OF CARDIOLOGY 331 : 316-321. ScholarBank@NUS Repository. https://doi.org/10.1016/j.ijcard.2021.01.066 | Abstract: | Background: There are several methods to quantify mitral regurgitation (MR) by cardiovascular magnetic resonance (CMR). The interoperability of these methods and their reproducibility remains undetermined. Objective: To determine the agreement and reproducibility of different MR quantification methods by CMR across all aetiologies. Methods: Thirty-five patients with MR were recruited (primary MR = 12, secondary MR = 10 and MVR = 13). Patients underwent CMR, including cines and four-dimensional flow (4D flow). Four methods were evaluated: MRStandard (left ventricular stroke volume - aortic forward flow by phase contrast), MRLVRV (left ventricular stroke volume - right ventricular stroke volume), MRJet (direct jet quantification by 4D flow) and MRMVAV (mitral forward flow by 4D flow - aortic forward flow by 4D flow). For all cases and MR types, 520 MR volumes were recorded by these 4 methods for intra−/inter-observer tests. Results: In primary MR, MRMVAV and MRLVRV were comparable to MRStandard (P > 0.05). MRJet resulted in significantly higher MR volumes when compared to MRStandard (P < 0.05) In secondary MR and MVR cases, all methods were comparable. In intra-observer tests, MRMVAV demonstrated least bias with best limits of agreement (bias = −0.1 ml, −8 ml to 7.8 ml, P = 0.9) and best concordance correlation coefficient (CCC = 0.96, P < 0.01). In inter-observer tests, for primary MR and MVR, least bias and highest CCC were observed for MRMVAV. For secondary MR, bias was lowest for MRJet (−0.1 ml, P[dbnd]NS). Conclusion: CMR methods of MR quantification demonstrate agreement in secondary MR and MVR. In primary MR, this was not observed. Across all types of MR, MRMVAV quantification demonstrated the highest reproducibility and consistency. | Source Title: | INTERNATIONAL JOURNAL OF CARDIOLOGY | URI: | https://scholarbank.nus.edu.sg/handle/10635/226644 | ISSN: | 01675273 18741754 |
DOI: | 10.1016/j.ijcard.2021.01.066 |
Appears in Collections: | Staff Publications Elements |
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