Curr Cardiol Rep. 2026 Jan 8;28(1):11. doi: 10.1007/s11886-025-02338-0.
ABSTRACT
PURPOSE OF REVIEW: Myocardial deformation imaging has transformed noninvasive right heart assessment by providing quantitative assessment of chamber level mechanics. The present review synthesizes current evidence on the clinical utility of right atrial echocardiographic strain, highlighting its physiologic underpinnings, diagnostic performance across cardiopulmonary disease states, and evolving integration into contemporary clinical practice.
RECENT FINDINGS: Right atrial strain provides a sensitive and reproducible measure of phasic function and chamber compliance, reflecting right-sided filling pressure and atrioventricular interactions. Abnormalities in reservoir and conduit strain are closely linked to diastolic dysfunction and serve as early indicators of right heart maladaptation. Impaired right atrial strain has emerged as an independent predictor of adverse clinical outcomes, including hospitalization, morbidity, mortality, and disease progression across multiple conditions including pulmonary hypertension, heart failure with preserved ejection fraction, valvular heart disease, and connective tissue disease-associated pulmonary vascular disease. Beyond its prognostic significance, right atrial strain provides complementary mechanistic information to right ventricular strain and invasive hemodynamic indices, reflecting atrial compliance, atrioventricular coupling, and systemic venous congestion. Right atrial strain provides mechanistic and prognostic insight beyond conventional echocardiographic measures of chamber size and pressure. As acquisition methods, reference ranges, and analytic standardization mature, right atrial strain is poised to become an essential component of comprehensive right heart evaluation, enabling earlier detection of dysfunction and refined assessment of disease progression and therapeutic efficacy.
PMID:41504988 | DOI:10.1007/s11886-025-02338-0