Impaired Myocardial Relaxation with Exercise Determines Peak Aerobic Exercise Capacity in Heart Failure with Preserved Ejection Fraction

Overview

Journal ESC Heart Fail

Date 2017 Aug 4

PMID 28772034

Citations 15

Authors

Cory Trankle

Justin M Canada

Leo Buckley

Salvatore Carbone

Dave Dixon

Ross Arena

Benjamin Van Tassell

Antonio Abbate

Affiliations

Soon will be listed here.

Abstract

Background: Heart failure with preserved ejection fraction (HFpEF) is a clinical syndrome characterized by impaired exercise capacity due to shortness of breath and/or fatigue. Assessment of diastolic dysfunction at rest and with exercise may provide insight into the pathophysiology of exercise intolerance in HFpEF.

Aims: To measure echocardio-Doppler-derived parameters of diastolic function as they relate to various indices of aerobic exercise capacity in HFpEF.

Methods: We selected 16 subjects with clinically stable HFpEF, no evidence of volume overload, but impaired functional capacity by cardiopulmonary exercise testing [peak oxygen consumption (VO )]. We measured the transmitral E and A flow velocities, E/A ratio, and E deceleration time (DT) and tissue Doppler E' velocity. We also indexed the E' to the DT, as additional measure of impaired relaxation (E' ), and calculated the diastolic functional reserve index (DFRI), as the product of E' at rest and change in E' with exercise.

Results: E' velocity, at rest and peak exercise, as well as the DFRI positively correlated with peak VO , whereas DT, E' , and E/E' with exercise inversely correlated with peak VO . Of note, the E' at rest also significantly predicted E' velocity at peak exercise (R = +0.81, P < 0.001). Exercise E' was the only independent predictor of peak VO at multivariable analysis (R = +0.67, P = 0.005).

Conclusions: The E' velocity at peak exercise is a strong and independent predictor of aerobic exercise capacity as measured by peak VO in patients with HFpEF, providing the link between abnormal myocardial relaxation with exercise and impaired aerobic exercise capacity in HFpEF.

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