Integration of longitudinal and circumferential strain predicts volumetric change across the cardiac cycle and differentiates patients along the heart failure continuum.

T Jake SamuelAndrew P OnegliaDaisha J CipherJustin A EzekowitzJason R B DyckTodd AndersonJonathan G HowlettD Ian PatersonRichard B ThompsonMichael D Nelson

Published in: Journal of cardiovascular magnetic resonance : official journal of the Society for Cardiovascular Magnetic Resonance (2023)

The data herein establish the theoretical framework for integrating discrete strain components into volumetric measurements across the cardiac cycle, and highlight the potential benefit of this approach for differentiating patients along the heart failure continuum.

Keyphrases

heart failure
end stage renal disease
ejection fraction
chronic kidney disease
newly diagnosed
left ventricular
peritoneal dialysis
atrial fibrillation
computed tomography
cross sectional