Rowe Stephanie, L'Hoyes Wouter, Milani Mauricio, Spencer Luke, Foulkes Stephen, Paratz Elizabeth, Janssens Kristel, Stassen Jan, Delpire Boris, Pauwels Rik, Moura-Ferreira Sara, Falter Maarten, Bekhuis Youri, Herbots Lieven, Haykowsky Mark J, Claessen Guido, La Gerche Andre, Verwerft Jan
HEART Lab, St Vincent's Institute of Medical Research, Fitzroy, Australia.
Department of Cardiology, St Vincent's Hospital Melbourne, Fitzroy, Australia.
Eur J Prev Cardiol. 2024 Nov 4. doi: 10.1093/eurjpc/zwae363.
Low cardiorespiratory fitness (CRF) is associated with functional disability, heart failure and mortality. Left ventricular (LV) end-diastolic volume (LVEDV) has been linked with CRF, but its utility as a diagnostic marker of low CRF has not been tested.
This multi-center international cohort examined the relationship between LV size on echocardiography and CRF (peak oxygen uptake [peak VO2] from cardiopulmonary exercise testing) in individuals with LV ejection fraction ≥50%. Absolute and BSA-indexed LVEDV (LVEDVi) were tested as predictors of low CRF and functional disability (peak VO2 <1100ml/min or <18 ml/kg/min) and compared against candidate measures of cardiac structure and function.
2876 individuals (309 endurance athletes, 251 healthy non-athletes, 1969 individuals with unexplained dyspnea, 347 individuals with heart failure with preserved ejection fraction) were included. For the entire cohort, LVEDV had the strongest univariable association with peak VO2 (R2 =0.45, standardized [std]β 0.67, p<0.001) and remained the strongest independent predictor of peak VO2 after adjusting for age, sex and BMI (stdβ 0.30, p<0.001). LVEDV was better at identifying low CRF than most established echocardiographic measures (LVEDV AUC 0.72; LVEDVi AUC 0.71), but equivalent to the E/e' ratio. The probability of achieving a peak VO2 below the functional independence threshold was highest for smaller ventricular volumes, with LVEDV and LVEDVi of 88ml and 57ml/m2 providing the optimal cut-points, respectively.
Small resting ventricular size is associated with a higher probability of low CRF and functional disability. LV size is the strongest independent echocardiographic predictor of CRF across the health-disease continuum.
