Early improvement of global longitudinal strain after iron deficiency correction in heart failure with reduced ejection fraction.

Abstract

Iron deficiency correction with ferric carboxymaltose improves symptoms and reduces rehospitalization in patients with reduced left ventricular ejection fraction. The mechanisms underlying these improvements are poorly understood. This study aimed to determine changes in left ventricular contractility after iron treatment as reflected in global longitudinal strain. Prospective single-center study including 43 adults with reduced ejection fraction, non-anemic iron deficiency, and functional class II-III heart failure despite optimal medical treatment. Global longitudinal strain through speckle-tracking echocardiography was measured at baseline and 4weeks after ferric carboxymaltose. A significant improvement in global longitudinal strain was detected (from -12.3%±4.0% at baseline to -15.6%±4.1%, p<.001); ferritin and transferrin saturation index had increased, but ejection fraction presented no significant changes (baseline 35.7%±4.6%, follow-up 37.2%±6.6%, p=.073). In patients with heart failure and reduced ejection fraction, the correction of iron deficiency with ferric carboxymaltose is associated with an early improvement in global longitudinal strain, possibly suggesting a direct effect of iron correction on myocardial contractility.