Functional iron deficiency and diastolic function in heart failure with preserved ejection fraction |
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| Authors: | Mario Kasner,Aleksandar S. Aleksandrov,Dirk Westermann,Dirk Lassner,Michael Gross,Stephan von Haehling,Stefan D. Anker,Heinz-Peter Schultheiss,Carsten Tschö pe |
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| Affiliation: | 1. Department of Cardiology and Pneumology, Charité-Universitaetsmedizin Berlin, Campus Benjamin Franklin, Berlin, Germany;2. Institute of Cardiac Diagnostics and Therapy, Berlin, Germany;3. Applied Cachexia Research, Dept. of Cardiology, Charité, Campus Virchow-Klinikum, Berlin, Germany;4. Centre for Clinical and Basic Research, IRCCS San Raffaele, Rome, Italy;5. Berlin-Brandenburg Center for Regenerative Therapies, Berlin, Germany;6. DZHK (German Centre for Cardiovascular Research), Partner Site Berlin-Charité, Germany |
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| Abstract: | ![]()
BackgroundFunctional iron deficiency (FID) is an independent risk factor for poor outcome in advanced heart failure with reduced EF, but its role in heart failure with preserved EF (HFPEF) remains unclear. We aimed to investigate the impact of FID on cardiac performance determined by pressure–volume loop analysis in HFPEF.Methods26 HFPEF patients who showed an increase in LV stiffness by pressure–volume (PV) loop analysis obtained by conductance-catheterization, performed exercise testing, echocardiographic examination including tissue Doppler and determination of iron metabolism: serum iron, ferritin and transferrin saturation. HFPEF patients who provided ferritin < 100 μg/l or ferritin of 100–299 μg/l in combination with transferrin saturation < 20% were defined as having FID. In 14 patients the expression of transferrin receptor was determined from available endomyocardial biopsies.ResultsFifteen out of 26 HFPEF patients showed FID without anemia. Compared to control subjects and HFPEF patients without FID, HFPEF patients with FID showed an up-regulation of the myocardial transferrin receptor expression (p < 0.05). No differences between HFPEF patients with and without iron deficiency were found in heart dimensions, systolic and diastolic function obtained by PV-loop and echocardiography analysis. According to the linear regression analysis, LV stiffness was correlated with peak oxygen uptake (r = − 0.636, p < 0.001) but not with the ferritin level or transferrin saturation. No relation was found between FID and exercise capacity. The association of LV stiffness with exercise performance was independent from the level of iron deficiency.ConclusionIn non-anemic HFPEF patients, cardiac dysfunction and impaired exercise capacity occur independently of FID. |
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| Keywords: | β, constant of LV stiffness, exponential curve fit to EDPVR CO, cardiac output dP/dtmax, maximum rate of LV pressure change dP/dtmin, minimum rate of LV pressure change E/A, ratio of early peak (E) to late peak (A) mitral flow velocities E/E&prime , LV filling index E&prime /A&prime , early (E&prime ) to late (A&prime ) diastolic velocity ratio of mitral annulus EDV, end-diastolic volume EDPVR, end-diastolic pressure&ndash volume relationship EF, ejection fraction ESP, end-systolic pressure ESV, end-systolic volume ET, exercise testing FID, functional iron deficiency HFPEF, heart failure with preserved ejection fraction IVRT, isovolumic relaxation time LA, left atrial LAVI, left atrial volume index LV, left ventricle LVEDP, LV end-diastolic pressure LVMI, LV mass index PV, pressure volume S&prime , systolic velocity of mitral annulus SW, stroke work Tau, isovolumic relaxation time constant TDI, tissue Doppler imaging VCO2, peak carbon dioxide output VE, ventilation equivalent VO2, peak oxygen uptake VT, ventilatory (anaerobic) threshold |
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