Key clinical point: Compared with continued medical therapy, cardiac contractility modulation (CCM) improved exercise tolerance and quality of life in heart failure patients with ejection fraction between 25% and 45%.
Major finding: The difference in peak VO2 between study arms was 0.836 mL O2/kg per minute (95% Bayesian credible interval, 0.123-1.552).
Study details: A randomized controlled trial including 160 patients with NYHA class III/IV heart failure and ejection fraction between 25% and 45%.
Disclosures: Research grant support for the study came from Impulse Dynamics. Several study authors reported serving as consultants to Impulse Dynamics.
Source: Abraham WT et al. JACC Heart Fail. 2018 May 10. doi: 10.1016/j.jchf.2018.04.010.
BOSTON – Cardiac contractility modulation (CCM), an electrical device–based modality, may improve exercise tolerance and quality of life in heart failure patients with ejection fraction between 25% and 45%, results of a randomized, controlled trial suggested.
Notably, clinical effectiveness appeared to be even greater in the subset of patient with ejection fractions between 35% and 45%, according to results presented at the annual scientific sessions of the Heart Rhythm Society.
Dr. William T. Abraham
“This cohort is of interest because these patients do not have an indication for an implantable cardiac defibrillator (ICD), so a stand-alone CCM device could be applicable,” study authors wrote in a report published simultaneously in JACC: Heart Failure.Moreover, CCM reduced the composite of cardiovascular death and heart failure hospitalizations, compared with optimal medical therapy, reported investigator William T. Abraham, MD, of the division of cardiovascular medicine at the Ohio State University, Columbus, and his coinvestigators.
The CCM approach was designed to treat chronic heart failure patients with reduced and midrange ejection fractions. It involves the delivery of electrical signals during the cardiac absolute refractory period to enhance contraction strength. Key components include an atrial lead used for sensing and two ventricular leads used for sensing local electrical activity and delivery of CCM signals.
The device was previously evaluated in FIX-HF-5, a 428-patient randomized trial of CCM in patients with New York Heart Association functional class III/IV and reduced ejection fraction. That study failed to meet its primary efficacy end point, but a subgroup analysis showed significant treatment effects in patients with ejection fractions between 25% and 45%.
Consequently, Dr. Abraham initiated the FIX-HF-5 confirmatory study (FIX-HF-5C) to prospectively evaluate CCM in patients with ejection fractions in that range.
The study included 160 with NYHA class III/IV heart failure, QRS duration less than 130 ms, and ejection fractions of 25%-45% who were randomized either to CCM or to continued optimal medical therapy. The control arm included 86 patients, and the CCM arm included 74 patients, of whom 68 received device implantation.