Mechanisms of atrial mitral regurgitation: Insights using 3D transoesophageal echo

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Abstract

AimsFunctional mitral regurgitation (FMR) is a consequence of mitral annular enlargement, leaflet tethering and reduced co-aptation. The importance of the left atrium (LA) as a cause of mitral regurgitation (MR) is less clear. We applied a co-aptation index using three-dimensional (3D) transoesophageal echocardiography to FMR and MR secondary to LA dilatation (atrial mitral regurgitation, AMR).Methods and resultsSeventy-two patients underwent comprehensive 3D echo studies: FMR (n = 19); AMR (n = 33); and 20 controls. We recorded: LV size and function; LA dimensions; mitral annular area (MVA); and leaflet area in early and late systole. MVA fractional change was defined: (MVA late systole - MVA early systole)/MVA late systole × 100%; the co-aptation index was defined: (leaflet area early systole - leaflet area late systole)/leaflet area early systole × 100%. Despite normal LV size and function in AMR, MVA was increased similarly to FMR (AMR 12.86 cm2 vs. FMR 12.33 cm2, P = ns; both P < 0.01 vs. controls 8.83 cm 2), and MVA fractional change similarly reduced (AMR 5.1% vs. FMR 6.3%; P = ns; both P < 0.001 vs. controls 14.6%). The co-aptation index was reduced in both MR groups (FMR 6.6% vs. AMR 7.0%, P = ns; both P < 0.001 vs. controls 19.6%). After multivariate analysis, the co-aptation index (χ2 = 41.2) and MVA fractional change (χ2 = 22.1) remained the strongest predictors of MR (both P < 0.001 for the model). A co-aptation index of ≤13% was 96% sensitive and 90% specific for the presence of MR.ConclusionLA dilatation leads to MVA enlargement, reduced leaflet co-aptation and MR even without LV dilatation. A co-aptation index describes this in vivo. This work provides insights into the mechanism of AMR. © 2014 Published on behalf of the European Society of Cardiology. All rights reserved.

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Ring, L., Dutka, D. P., Wells, F. C., Fynn, S. P., Shapiro, L. M., & Rana, B. S. (2014). Mechanisms of atrial mitral regurgitation: Insights using 3D transoesophageal echo. European Heart Journal Cardiovascular Imaging, 15(5), 500–508. https://doi.org/10.1093/ehjci/jet191

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