Left Ventricular Dysfunction in Heart Failure with Preserved Ejection Fraction-molecular Mechanisms and Impact on Right Ventricular Function

Overview

Journal Cardiovasc Diagn Ther

Publisher AME Publishing Company

Specialty Cardiology & Vascular Diseases

Date 2020 Nov 23

PMID 33224773

Citations 14

Authors

Frank R Heinzel

Niklas Hegemann

Felix Hohendanner

Uwe Primessnig

Jana Grune

Florian Blaschke

Rudolf A de Boer

Burkert Pieske

Gabriele G Schiattarella

Wolfgang M Kuebler

Affiliations

Soon will be listed here.

Abstract

The current classification of heart failure (HF) based on left ventricular (LV) ejection fraction (EF) identifies a large group of patients with preserved ejection fraction (HFpEF) with significant morbidity and mortality but without prognostic benefit from current HF therapy. Co-morbidities and conditions such as arterial hypertension, diabetes mellitus, chronic kidney disease, adiposity and aging shape the clinical phenotype and contribute to mortality. LV diastolic dysfunction and LV structural remodeling are hallmarks of HFpEF, and are linked to remodeling of the cardiomyocyte and extracellular matrix. Pulmonary hypertension (PH) and right ventricular dysfunction (RVD) are particularly common in HFpEF, and mortality is up to 10-fold higher in HFpEF patients with without RV dysfunction. Here, we review alterations in cardiomyocyte function (i.e., ion homeostasis, sarcomere function and cellular metabolism) associated with diastolic dysfunction and summarize the main underlying cellular pathways. The contribution and interaction of systemic and regional upstream signaling such as chronic inflammation, neurohumoral activation, and NO-cGMP-related pathways are outlined in detail, and their diagnostic and therapeutic potential is discussed in the context of preclinical and clinical studies. In addition, we summarize prevalence and pathomechanisms of RV dysfunction in the context of HFpEF and discuss mechanisms connecting LV and RV dysfunction in HFpEF. Dissecting the molecular mechanisms of LV and RV dysfunction in HFpEF may provide a basis for an improved classification of HFpEF and for therapeutic approaches tailored to the molecular phenotype.

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