Determinants of quality of life of patients with heart failure and iron deficiency treated with ferric carboxymaltose: FAIR-HF sub-analysis

In recent years there has been significant interest in treating iron deficiency (ID) in patients with heart failure (HF) due to its high prevalence and detrimental effects in this population. As stated in the 2020 Russain HF guidelines, Intravenous ferric carboxymaltose remains the only proven therapy for ID.This document was prompted by the results from the recent AFFIRM-AHF trial which demonstrates that treatment of ID after acute HF decompensation reduces the risk of future decompensations. Experts have concluded that in HF patients with acute decompensation, a left ventricular ejection fraction of < 50% and ID, Intravenous ferric carboxymaltose reduces future HF hospitalisations. Patients with stable HF may also benefit from treatment of ID to improve quality of life and alleviate symptoms. It is, therefore, reasonable to screen for and treat ID in patients with HF.

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Iron Deficiency: A New Target for Patients With Heart Failure

Frontiers in Cardiovascular Medicine ◽

10.3389/fcvm.2021.709872 ◽

2021 ◽

Vol 8 ◽

Author(s):

Caterina Rizzo ◽

Rosa Carbonara ◽

Roberta Ruggieri ◽

Andrea Passantino ◽

Domenico Scrutinio

Keyword(s):

Quality Of Life ◽

Heart Failure ◽

Iron Deficiency ◽

Exercise Capacity ◽

Transferrin Saturation ◽

Oral Iron ◽

Peak Oxygen Consumption ◽

Iron Deficient ◽

Patients With Heart Failure

Iron deficiency (ID) is one of the most frequent comorbidities in patients with heart failure (HF). ID is estimated to be present in up to 50% of outpatients and is a strong independent predictor of HF outcomes. ID has been shown to reduce quality of life, exercise capacity and survival, in both the presence and absence of anemia. The most recent 2016 guidelines recommend starting replacement treatment at ferritin cutoff value <100 mcg/l or between 100 and 299 mcg/l when the transferrin saturation is <20%. Beyond its effect on hemoglobin, iron plays an important role in oxygen transport and in the metabolism of cardiac and skeletal muscles. Mitochondria are the most important sites of iron utilization and energy production. These factors clearly have roles in the diminished exercise capacity in HF. Oral iron administration is usually the first route used for iron repletion in patients. However, the data from the IRONOUT HF study do not support the use of oral iron supplementation in patients with HF and a reduced ejection fraction, because this treatment does not affect peak VO2 (the primary endpoint of the study) or increase serum ferritin levels. The FAIR-HF and CONFIRM-HF studies have shown improvements in symptoms, quality of life and functional capacity in patients with stable, symptomatic, iron-deficient HF after the administration of intravenous iron (i.e., FCM). Moreover, they have shown a decreased risk of first hospitalization for worsening of HF, as later confirmed in a subsequent meta-analysis. In addition, the EFFECT-HF study has shown an improvement in peak oxygen consumption at CPET (a parameter generally considered the gold standard of exercise capacity and a predictor of outcome in HF) in patients randomized to receive ferric carboxymaltose. Finally, the AFFIRM AHF trial evaluating the effects of FCM administration on the outcomes of patients hospitalized for acute HF has found significantly fewer hospital readmissions due to HF among patients treated with FCM rather than placebo.

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