Right ventricular geometry and function in chronic primary mitral and
aortic valve regurgitation: a three-dimensional echocardiography study.
Abstract
Aims To compare the effects of LV volume overload due to chronic organic
MR or AR on RV shape and function. Methods and results We studied 63
patients with moderate-severe or severe primary MR and 36 patients with
moderate or severe AR. 3D echocardiography of LV and RV was performed to
measure volumes and EF. RV fractional area change (FAC) was calculated,
and RV shape was assessed by calculating the RV eccentricity index.LV
EDVi was significantly larger in the patients with AR than in those with
MR. RV EF and RV FAC were lower in pts with AR than in those with MR. RV
EI was significantly higher in the AR group. In both groups, LV EDVi
showed positive correlations with RV EI ( r= 0.693 for AR and r=0.399
for MR) and negative correlations (RV EF :r= -0.545 for AR and r=- 0.383
for MR ; RV FAC: r=-0.816 for AR and r=-0.647 for MR, ). LV sphericity
index showed negative correlations (RVFAC: r= -0.512 and r=-0.608 f ;RV
EF:r=-0.408 and r=-0.469 respectively ) and positive correlation with
the RV EI (r= 0.39 and r=0.511 respectively) .LV EDVi and LV sphericity
index were found to be the only independent predictors of RV
eccentricity index, EF, and FAC. Conclusions RV remodeling in chronic LV
overload due to MR or AR occurs independently on PASP values. LV size
and shape are the only independent predictors of RV geometry and
function. Accordingly, chronic AR has a greater impact on RV than MR