Allison B Hall1, Maria C Ziadi1, Judith A Leech1, Shin-Yee Chen1, Ian G Burwash1, Jennifer Renaud1, Robert A deKemp1, Haissam Haddad1, Lisa M Mielniczuk1, Keiichiro Yoshinaga1, Ann Guo1, Li Chen1, Olga Walter1, Linda Garrard1, Jean N DaSilva1, John S Floras1, Rob S B Beanlands2. 1. From the National Cardiac PET Center, Division of Cardiology, Department of Medicine (A.B.H., M.C.Z., S.C., I.G.B., J.R., R.A.d., H.H., L.M.M., K.Y., A.G., O.W., L.G., J.N.D., R.S.B.B.), and Cardiac Research Methods Center (L.C.), University of Ottawa Heart Institute, Ottawa, Canada; Diagnostico Medico Oronia, Non Invasive Cardiovascular Imaging Department, Rosario, Santa Fe, Argentina (M.C.Z.); Division of Respirology, Department of Medicine, Ottawa Hospital, University of Ottawa, Ottawa, Canada (J.A.L.); Department of Molecular Imaging, Hokkaido University Graduate School of Medicince, Sapporo, Japan (K.Y.); and Division of Cardiology, Department of Medicine, Mount Sinai Hospital, University of Toronto, Toronto, Canada (J.S.F.). 2. From the National Cardiac PET Center, Division of Cardiology, Department of Medicine (A.B.H., M.C.Z., S.C., I.G.B., J.R., R.A.d., H.H., L.M.M., K.Y., A.G., O.W., L.G., J.N.D., R.S.B.B.), and Cardiac Research Methods Center (L.C.), University of Ottawa Heart Institute, Ottawa, Canada; Diagnostico Medico Oronia, Non Invasive Cardiovascular Imaging Department, Rosario, Santa Fe, Argentina (M.C.Z.); Division of Respirology, Department of Medicine, Ottawa Hospital, University of Ottawa, Ottawa, Canada (J.A.L.); Department of Molecular Imaging, Hokkaido University Graduate School of Medicince, Sapporo, Japan (K.Y.); and Division of Cardiology, Department of Medicine, Mount Sinai Hospital, University of Toronto, Toronto, Canada (J.S.F.). rbeanlands@ottawaheart.ca.
Abstract
BACKGROUND:Heart failure with reduced ejection fraction and obstructive sleep apnea (OSA), 2 states of increased metabolic demand and sympathetic nervous system activation, often coexist. Continuous positive airway pressure (CPAP), which alleviates OSA, can improve ventricular function. It is unknown whether this is due to altered oxidative metabolism or presynaptic sympathetic nerve function. We hypothesized that short-term (6-8 weeks) CPAP in patients with OSA and heart failure with reduced ejection fraction would improve myocardial sympathetic nerve function and energetics. METHODS AND RESULTS:Forty-five patients with OSA and heart failure with reduced ejection fraction (left ventricular ejection fraction 35.8±9.7% [mean±SD]) were evaluated with the use of echocardiography and 11C-acetate and 11C-hydroxyephedrine positron emission tomography before and ≈6 to 8 weeks after randomization to receive short-term CPAP (n=22) or no CPAP (n=23). Work metabolic index, an estimate of myocardial efficiency, was calculated as follows: (stroke volume index×heart rate×systolic blood pressure÷Kmono), where Kmono is the monoexponential function fit to the myocardial 11C-acetate time-activity data, reflecting oxidative metabolism. Presynaptic sympathetic nerve function was measured with the use of the 11C-hydroxyephedrine retention index. CPAP significantly increased hydroxyephedrine retention versus no CPAP (Δretention: +0.012 [0.002, 0.021] versus -0.006 [-0.013, 0.005] min(-1); P=0.003). There was no significant change in work metabolic index between groups. However, in those with more severe OSA (apnea-hypopnea index>20 events per hour), CPAP significantly increased both work metabolic index and systolic blood pressure (P<0.05). CONCLUSIONS: In patients with heart failure with reduced ejection fraction and OSA, short-term CPAP increased hydroxyephedrine retention, indicating improved myocardial sympathetic nerve function, but overall did not affect energetics. In those with more severe OSA, CPAP may improve cardiac efficiency. Further outcome-based investigation of the consequences of CPAP is warranted. CLINICAL TRIAL REGISTRATION URL: http://www.clinicaltrials.gov. Unique identifier: NCT00756366.
RCT Entities:
BACKGROUND:Heart failure with reduced ejection fraction and obstructive sleep apnea (OSA), 2 states of increased metabolic demand and sympathetic nervous system activation, often coexist. Continuous positive airway pressure (CPAP), which alleviates OSA, can improve ventricular function. It is unknown whether this is due to altered oxidative metabolism or presynaptic sympathetic nerve function. We hypothesized that short-term (6-8 weeks) CPAP in patients with OSA and heart failure with reduced ejection fraction would improve myocardial sympathetic nerve function and energetics. METHODS AND RESULTS: Forty-five patients with OSA and heart failure with reduced ejection fraction (left ventricular ejection fraction 35.8±9.7% [mean±SD]) were evaluated with the use of echocardiography and 11C-acetate and 11C-hydroxyephedrine positron emission tomography before and ≈6 to 8 weeks after randomization to receive short-term CPAP (n=22) or no CPAP (n=23). Work metabolic index, an estimate of myocardial efficiency, was calculated as follows: (stroke volume index×heart rate×systolic blood pressure÷Kmono), where Kmono is the monoexponential function fit to the myocardial 11C-acetate time-activity data, reflecting oxidative metabolism. Presynaptic sympathetic nerve function was measured with the use of the 11C-hydroxyephedrine retention index. CPAP significantly increased hydroxyephedrine retention versus no CPAP (Δretention: +0.012 [0.002, 0.021] versus -0.006 [-0.013, 0.005] min(-1); P=0.003). There was no significant change in work metabolic index between groups. However, in those with more severe OSA (apnea-hypopnea index>20 events per hour), CPAP significantly increased both work metabolic index and systolic blood pressure (P<0.05). CONCLUSIONS: In patients with heart failure with reduced ejection fraction and OSA, short-term CPAP increased hydroxyephedrine retention, indicating improved myocardial sympathetic nerve function, but overall did not affect energetics. In those with more severe OSA, CPAP may improve cardiac efficiency. Further outcome-based investigation of the consequences of CPAP is warranted. CLINICAL TRIAL REGISTRATION URL: http://www.clinicaltrials.gov. Unique identifier: NCT00756366.
Authors: Susheel P Patil; Indu A Ayappa; Sean M Caples; R Joh Kimoff; Sanjay R Patel; Christopher G Harrod Journal: J Clin Sleep Med Date: 2019-02-15 Impact factor: 4.062
Authors: E D'Elia; P Ferrero; C Vittori; A Iacovoni; A Grosu; M Gori; V Duino; S Perlini; Michele Senni Journal: Sleep Breath Date: 2018-06-15 Impact factor: 2.816
Authors: Jason G E Zelt; Lisa M Mielniczuk; Cesare Orlandi; Simon Robinson; Tayebeh Hadizad; Olga Walter; Linda Garrard; Rob S B Beanlands; Robert A deKemp Journal: J Nucl Cardiol Date: 2018-11-19 Impact factor: 5.952