Research

Influence of the atrio-ventricular delay optimization on the intra left ventricular delay in cardiac resynchronization therapy

Christoph Melzer¹ , Fabian Knebel¹ , Bruno Ismer² , Hansjürgen Bondke² , Christoph A Nienaber² , Gert Baumann¹ and Adrian C Borges¹

¹  Universitätsmedizin Berlin, Medical Clinic for Cardiology, Angiology, Pulmology, Charité Campus Mitte, Germany

²  University of Rostock, Clinic for Internal Medicine, Rostock, Germany

author email corresponding author email

Cardiovascular Ultrasound 2006, 4:5doi:10.1186/1476-7120-4-5

Published:	26 January 2006

Abstract

Background

Cardiac Resynchronization Therapy (CRT) leads to a reduction of left-ventricular dyssynchrony and an acute and sustained hemodynamic improvement in patients with chronic heart failure. Furthermore, an optimized AV-delay leads to an improved myocardial performance in pacemaker patients. The focus of this study is to investigate the acute effect of an optimized AV-delay on parameters of dyssynchrony in CRT patients.

Method

11 chronic heart failure patients with CRT who were on stable medication were included in this study. The optimal AV-delay was defined according to the method of Ismer (mitral inflow and trans-oesophageal lead). Dyssynchrony was assessed echocardiographically at three different settings: AVD_OPT; AVD_OPT-50 ms and AVD_OPT+50 ms. Echocardiographic assessment included 2D- and M-mode echo for the assessment of volumes and hemodynamic parameters (CI, SV) and LVEF and tissue Doppler echo (strain, strain rate, Tissue Synchronisation Imaging (TSI) and myocardial velocities in the basal segments)

Results

The AVD_OPT in the VDD mode (atrially triggered) was 105.5 ± 38.1 ms and the AVD_OPT in the DDD mode (atrially paced) was 186.9 ± 52.9 ms. Intra-individually, the highest LVEF was measured at AVD_OPT. The LVEF at AVD_OPT was significantly higher than in the AVD_OPT-50setting (p = 0.03). However, none of the parameters of dyssynchrony changed significantly in the three settings.

Conclusion

An optimized AV delay in CRT patients acutely leads to an improved systolic left ventricular ejection fraction without improving dyssynchrony.