Payman Zamani1, Scott M Lilly2, Patrick Segers3, David R Jacobs4, David A Bluemke5, Daniel A Duprez6, Julio A Chirinos7. 1. Division of Cardiovascular Medicine, Hospital of the University of Pennsylvania, Perelman School of Medicine. Philadelphia, Pennsylvania. Electronic address: pzamani@upenn.edu. 2. Division of Cardiovascular Medicine, Ohio State University Heart and Vascular Center, Columbus, Ohio. 3. Biofluid, Tissue, and Solid Mechanics for Medical Applications, Ibitech, iMinds Medical IT, Ghent University, Ghent, Belgium. 4. Division of Epidemiology and Community Health, School of Public Health, University of Minnesota, Minnesota. 5. National Institutes of Health, Bethesda, Maryland; Departments of Radiology and Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland. 6. Division of Cardiology, School of Medicine, University of Minnesota. Minneapolis, Minnesota. 7. Division of Cardiovascular Medicine, Hospital of the University of Pennsylvania, Perelman School of Medicine. Philadelphia, Pennsylvania.
Abstract
BACKGROUND: Left ventricular (LV) afterload is composed of systemic vascular resistance (SVR) and components of pulsatile load, including total arterial compliance (TAC), and reflection magnitude (RM). RM, which affects the LV systolic loading sequence, has been shown to strongly predict HF. Effective arterial elastance (Ea) is a commonly used parameter initially proposed to be a lumped index of resistive and pulsatile afterload. We sought to assess how various LV afterload parameters predict heart failure (HF) risk and whether RM predicts HF independently from subclinical atherosclerosis. METHODS: We studied 4345 MESA participants who underwent radial arterial tonometry and cardiac output (CO) measurements with the use of cardiac MRI. RM was computed as the ratio of the backward (Pb) to forward (Pf) waves. TAC was approximated as the ratio of stroke volume (SV) to central pulse pressure. SVR was computed as mean pressure/CO. Ea was computed as central end-systolic pressure/SV. RESULTS: During 10.3 years of follow-up, 91 definite HF events occurred. SVR (P = .74), TAC (P = .81), and Ea (P = .81) were not predictive of HF risk. RM was associated with increased HF risk, even after adjustment for other parameters of arterial load, various confounders, and markers of subclinical atherosclerosis (standardized hazard ratio [HR] 1.49, 95% confidence interval [CI] 1.18-1.88; P = .001). Pb was also associated with an increased risk of HF after adjustment for Pf (standardized HR 1.43, 95% CI 1.17-1.75; P = .001). CONCLUSIONS: RM is an important independent predictor of HF risk, whereas TAC, SVR, and Ea are not. Our findings support the importance of the systolic LV loading sequence on HF risk, independently from subclinical atherosclerosis. Copyright Â
BACKGROUND: Left ventricular (LV) afterload is composed of systemic vascular resistance (SVR) and components of pulsatile load, including total arterial compliance (TAC), and reflection magnitude (RM). RM, which affects the LV systolic loading sequence, has been shown to strongly predict HF. Effective arterial elastance (Ea) is a commonly used parameter initially proposed to be a lumped index of resistive and pulsatile afterload. We sought to assess how various LV afterload parameters predict heart failure (HF) risk and whether RM predicts HF independently from subclinical atherosclerosis. METHODS: We studied 4345 MESAparticipants who underwent radial arterial tonometry and cardiac output (CO) measurements with the use of cardiac MRI. RM was computed as the ratio of the backward (Pb) to forward (Pf) waves. TAC was approximated as the ratio of stroke volume (SV) to central pulse pressure. SVR was computed as mean pressure/CO. Ea was computed as central end-systolic pressure/SV. RESULTS: During 10.3 years of follow-up, 91 definite HF events occurred. SVR (P = .74), TAC (P = .81), and Ea (P = .81) were not predictive of HF risk. RM was associated with increased HF risk, even after adjustment for other parameters of arterial load, various confounders, and markers of subclinical atherosclerosis (standardized hazard ratio [HR] 1.49, 95% confidence interval [CI] 1.18-1.88; P = .001). Pb was also associated with an increased risk of HF after adjustment for Pf (standardized HR 1.43, 95% CI 1.17-1.75; P = .001). CONCLUSIONS:RM is an important independent predictor of HF risk, whereas TAC, SVR, and Ea are not. Our findings support the importance of the systolic LV loading sequence on HF risk, independently from subclinical atherosclerosis. Copyright Â
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