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The interplay between metabolic alterations,diastolic strain rate and exercise capacity in mild heart failure with preserved ejection fraction: a cardiovascular magnetic resonance study
Authors:Masliza Mahmod  Nikhil Pal  Jennifer Rayner  Cameron Holloway  Betty Raman  Sairia Dass  Eylem Levelt  Rina Ariga  Vanessa Ferreira  Rajarshi Banerjee  Jurgen E. Schneider  Christopher Rodgers  Jane M. Francis  Theodoros D. Karamitsos  Michael Frenneaux  Houman Ashrafian  Stefan Neubauer  Oliver Rider
Affiliation:1.Division of Cardiovascular Medicine, Radcliffe Department of Medicine,University of Oxford Centre for Clinical Magnetic Resonance Research (OCMR), University of Oxford, John Radcliffe Hospital,Oxford,UK;2.National University of Malaysia Medical Centre,Kuala Lumpur,Malaysia;3.Divisions of Experimental Therapeutics and Cardiovascular Medicine, Radcliffe Department of Medicine,Oxford,UK;4.1st Department of Cardiology,Aristotle University,Thessaloniki,Greece;5.Department of Medicine,John Radcliffe Hospital,Oxford,UK;6.Wolfson Brain Imaging Centre,University of Cambridge,Cambridge,UK;7.Norwich Medical School, Bob Champion Research and Education Building, James Watson Road,University of East Anglia Norwich Research Park,Norwich,UK
Abstract:

Background

Heart failure (HF) is characterized by altered myocardial substrate metabolism which can lead to myocardial triglyceride accumulation (steatosis) and lipotoxicity. However its role in mild HF with preserved ejection fraction (HFpEF) is uncertain. We measured myocardial triglyceride content (MTG) in HFpEF and assessed its relationships with diastolic function and exercise capacity.

Methods

Twenty seven HFpEF (clinical features of HF, left ventricular EF >50%, evidence of mild diastolic dysfunction and evidence of exercise limitation as assessed by cardiopulmonary exercise test) and 14 controls underwent 1H-cardiovascular magnetic resonance spectroscopy (1H-CMRS) to measure MTG (lipid/water, %), 31P-CMRS to measure myocardial energetics (phosphocreatine-to-adenosine triphosphate - PCr/ATP) and feature-tracking cardiovascular magnetic resonance (CMR) imaging for diastolic strain rate.

Results

When compared to controls, HFpEF had 2.3 fold higher in MTG (1.45?±?0.25% vs. 0.64?±?0.16%, p?=?0.009) and reduced PCr/ATP (1.60?±?0.09 vs. 2.00?±?0.10, p?=?0.005). HFpEF had significantly reduced diastolic strain rate and maximal oxygen consumption (VO2 max), which both correlated significantly with elevated MTG and reduced PCr/ATP. On multivariate analyses, MTG was independently associated with diastolic strain rate while diastolic strain rate was independently associated with VO2 max.

Conclusions

Myocardial steatosis is pronounced in mild HFpEF, and is independently associated with impaired diastolic strain rate which is itself related to exercise capacity. Steatosis may adversely affect exercise capacity by indirect effect occurring via impairment in diastolic function. As such, myocardial triglyceride may become a potential therapeutic target to treat the increasing number of patients with HFpEF.
Keywords:
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