Selective heart rate reduction with ivabradine unloads the left ventricle in heart failure patients
Jan-Christian Reil, Jean-Claude Tardif, Ian Ford, Suzanne M Lloyd, Eileen O'Meara, Michel Komajda, Jeffrey S Borer, Luigi Tavazzi, Karl Swedberg, Michael Böhm, Jan-Christian Reil, Jean-Claude Tardif, Ian Ford, Suzanne M Lloyd, Eileen O'Meara, Michel Komajda, Jeffrey S Borer, Luigi Tavazzi, Karl Swedberg, Michael Böhm
Abstract
Objectives: The study aimed to determine whether isolated heart rate (HR) reduction with ivabradine reduces afterload of patients with systolic heart failure.
Background: The effective arterial elastance (Ea) represents resistive and pulsatile afterload of the heart derived from the pressure volume relation. HR modulates Ea, and, therefore, afterload burden.
Methods: Among the patients with systolic heart failure (ejection fraction ≤35%) randomized to either placebo or ivabradine in the SHIFT (Systolic Heart Failure Treatment With the If Inhibitor Ivabradine Trial), 275 patients (n = 132, placebo; n = 143, ivabradine 7.5 mg twice a day) were included in the echocardiographic substudy. Ea, total arterial compliance (TAC), and end-systolic elastance (Ees) were calculated at baseline and after 8 months of treatment. Blood pressure was measured by arm cuff; stroke volume (SV), ejection fraction, and end-diastolic volume were assessed by echocardiography.
Results: At baseline Ea, TAC, HR, and Ees did not differ significantly between ivabradine- and placebo-treated patients. After 8 months of treatment, HR was significantly reduced in the ivabradine group (p < 0.0001) and was accompanied by marked reduction in Ea (p < 0.0001) and improved TAC (p = 0.004) compared with placebo. Although contractility remained unchanged, ventricular-arterial coupling was markedly improved (p = 0.002), resulting in a higher SV (p < 0.0001) in the ivabradine-treated patients.
Conclusions: Isolated HR reduction by ivabradine improves TAC, thus reducing Ea. Because Ees is unaltered, improved ventricular-arterial coupling is responsible for increased SV. Therefore, unloading of the heart may contribute to the beneficial effect of isolated HR reduction in patients with systolic heart failure.
Keywords: CO; EDV; EF; ESPVR; Ea; Ees; HF; HR; LV; LVOT; MAP; PP; PV; Pes; SV; TAC; TPR; cardiac output; effective arterial elastance; ejection fraction; end-diastolic volume; end-systolic elastance; end-systolic pressure; end-systolic pressure–volume relationship; heart failure; heart rate; heart rate reduction; left ventricular; left ventricular outflow tract; mean arterial pressure; pressure-volume; pulse pressure; stroke volume; systolic heart failure; total arterial compliance; total peripheral resistance; ventricular-arterial coupling.
Copyright © 2013 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.
Source: PubMed