P2740Quantitative assessment of the entire right ventricle from one acoustic window: an attractive approach in patients with congenital heart disease
Abstract Background Right ventricular (RV) function is recognized as a prognostic factor in congenital heart disease (CHD). The accuracy of established parameters as tricuspid annular plane systolic excursion (TAPSE), right ventricular fractional area change (RVFAC) and tissue Doppler imaging (TDI S') are limited as the parameters reflect only a limited region of the RV. We previously introduced a novel four-view approach with different RV walls visualized in their long axis from one apical view using 2D-transthoracic echocardiographic (TTE) iRotate mode. Aims To extensive evaluate the entire RV function using iRotate echocardiography in a whole spectrum of CHD patients with abnormally loaded RV; both feasibility and RV echocardiographic parameters as comparison with healthy subjects is evaluated. Methods and results One hundred and forty-two CHD patients with abnormally loaded RV and 89 healthy subjects were included. All subjects underwent complete TTE with evaluation of TAPSE, TDI S' and peak systolic global longitudinal RV strain (RV-GLS) from the RV walls using the four-view iRotate model. The feasibility of TAPSE and RV S' ranged between 94% and 100%. The feasibility of RV-GLS in CHD was 98%, 69%, 87% and 72% respectively in the lateral, anterior, inferior and inferior coronal view walls. With the exception of RV S' in the inferior coronal view, all parameters were significantly lower in the CHD vs healthy subjects (p<0.001) (Table). i-Rotate RV wall GLS (%) RV wall GLS (%) Measurement Feasibility Congenital (n=142) Controls (n=89) P-value Lateral 97.9 −17.6±5.0 −25.4±4.5 <0.001 Anterior 69.0 −15.9±4.9* −24.2±4.5 <0.001 Inferior 88.7 −17.2±4.7 −23.3±4.4 <0.001 Inferior coronal view 72.5 −15.1±4.5* ** −20.8±5.2 <0.001 Data expressed as mean ± SD or %. p<0.05 for *Lateral vs Anterior and vs Inferior CV; **Inferior vs Inferior CV. Conclusion The feasibility of all RV parameters in the four-axis iRotate model is excellent in CHD and represents a reproducible, easily applicable and complete RV assessment in daily practice. RV function is significantly decreased in the CHD group using both load dependent and independent parameters. Complete RV strain analysis reveals regional differences in patients with CHD.