Impaired Cardiovascular Magnetic Resonance-Derived Rapid Semiautomated Right Atrial Longitudinal Strain Is Associated With Decompensated Hemodynamics in Pulmonary Arterial Hypertension

Background The transition of right ventricle (RV) from a compensated to decompensated state contributes to survival in pulmonary arterial hypertension (PAH). This study investigates the significance of right atrial (RA) dysfunction on disease progression in PAH. Methods Eighty patients with PAH, including 58 with hemodynamically compensated RV function (PAH-C) and 22 with decompensated RV function (PAH-D), were compared with 80 age-matched and sex-matched normal controls. RA longitudinal strain and strain rate (SR) parameters corresponding to reservoir (total strain ε and strain rate SR ), conduit (passive strain ε and strain rate SR ), and booster pump (active strain ε and strain rate SR ) phases were derived by a rapid semiautomated method on cine cardiovascular magnetic resonance. Results In PAH compared with controls, significantly reduced RA strains and SRs were observed. Among patients with PAH, PAH-D had significantly impaired RA strains and SRs compared with PAH-C. RA total strain and passive strain were the best parameters for differentiating PAH-D from PAH-C. Lower RA strain correlated with increased RA pressure ( r=-0.57; P