Pressure overload is associated with right ventricular dyssynchrony in heart failure with reduced ejection fraction

Luca Monzo; Marek Tupy; Barry A. Borlaug; Adrian Reichenbach; Ivana Jurcova; Jan Benes; Lenka Mlateckova; Jiri Ters; Josef Kautzner; Vojtech Melenovsky

doi:10.1002/ehf2.14682

ESC Heart Failure (Apr 2024)

Pressure overload is associated with right ventricular dyssynchrony in heart failure with reduced ejection fraction

Luca Monzo,
Marek Tupy,
Barry A. Borlaug,
Adrian Reichenbach,
Ivana Jurcova,
Jan Benes,
Lenka Mlateckova,
Jiri Ters,
Josef Kautzner,
Vojtech Melenovsky

Affiliations

Luca Monzo: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Marek Tupy: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Barry A. Borlaug: Cardiovascular Division Mayo Clinic Rochester MN USA
Adrian Reichenbach: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Ivana Jurcova: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Jan Benes: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Lenka Mlateckova: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Jiri Ters: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Josef Kautzner: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic
Vojtech Melenovsky: Institute for Clinical and Experimental Medicine (IKEM) Prague Czech Republic

DOI: https://doi.org/10.1002/ehf2.14682
Journal volume & issue: Vol. 11, no. 2
pp. 1097 – 1109

Abstract

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Abstract Aims The determinants and relevance of right ventricular (RV) mechanical dyssynchrony in heart failure with reduced ejection fraction (HFrEF) are poorly understood. We hypothesized that increased afterload may adversely affect the synchrony of RV contraction. Methods and results A total of 148 patients with HFrEF and 36 controls underwent echocardiography, right heart catheterization, and gated single‐photon emission computed tomography to measure RV chamber volumes and mechanical dyssynchrony (phase standard deviation of systolic displacement timing). Exams were repeated after preload (N = 135) and afterload (N = 15) modulation. Patients with HFrEF showed higher RV dyssynchrony compared with controls (40.6 ± 17.5° vs. 27.8 ± 9.1°, P < 0.001). The magnitude of RV dyssynchrony in HFrEF correlated with larger RV and left ventricular (LV) volumes, lower RV ejection fraction (RVEF) and LV ejection fraction, reduced intrinsic contractility, increased heart rate, higher pulmonary artery (PA) load, and impaired RV–PA coupling (all P ≤ 0.01). Low RVEF was the strongest predictor of RV dyssynchrony. Left bundle branch block (BBB) was associated with greater RV dyssynchrony than right BBB, regardless of QRS duration. RV afterload reduction by sildenafil improved RV dyssynchrony (P = 0.004), whereas preload change with passive leg raise had modest effect. Patients in the highest tertiles of RV dyssynchrony had an increased risk of adverse clinical events compared with those in the lower tertile [T2/T3 vs. T1: hazard ratio 1.98 (95% confidence interval 1.20–3.24), P = 0.007]. Conclusions RV dyssynchrony is associated with RV remodelling, dysfunction, adverse haemodynamics, and greater risk for adverse clinical events. RV dyssynchrony is mitigated by acute RV afterload reduction and could be a potential therapeutic target to improve RV performance in HFrEF.

Published in ESC Heart Failure

ISSN: 2055-5822 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Diseases of the circulatory (Cardiovascular) system
Website: http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2055-5822

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