Randomized Study Evaluating Agents Stimulants Erythropoiesis (ASE) Associated With Ferric Carboxymaltose (Ferinject ®) in Concomitant or Sequential Patients Treated for Cancer and With Anemia Associated With Functional Iron Deficiency

• Iron Deficiency and Cancer The literature review therefore presents uncertainties do not allow the routine application of intravenous iron associated with ESAs. The SOR also conclude that IV iron is "consider" if iron deficiency.

These uncertainties are the heterogeneity of the study populations, contradictory results and the use of patterns intravenous iron binding and non-standardized.

The investigators focus in this study in patients with chemotherapy-induced anemia with functional iron deficiency is a cause of lack of response to ESA. Indeed, patients with true iron deficiency seems to justify a routine iron supplementation. In contrast, patients without iron deficiency do not warrant formal way of initiating such treatment (although the literature is contradictory).

This study aims to evaluate, in patients with chemotherapy-induced anemia and functional iron deficiency, the efficacy and safety of the combination epoietin zeta + Iron in concomitant intravenous or sequential.

Because data RCP (Summary of Product Characteristics), ease of use, its safety profile, the ability to achieve higher doses of iron with a lower frequency and with better adherence, the ferric carboxymaltose was chosen as an intravenous iron. One specialty is available, the Ferinject ® (Laboratoires VIFOR Pharma).

The erythropoiesis-stimulating agent chosen in this study is epoietin zeta.

• Hepcidin and iron Hepcidin is a peptide hormone of 25 amino acids produced by the liver and considered as the central regulator of iron homeostasis in the body.

It works by controlling intestinal iron absorption and iron reuse by the reticuloendothelial system. Hepcidin acts by preventing the export of iron enterocytes, intestinal site of absorption of dietary iron, and macrophages, iron recycling site of hemoglobin, by binding to ferroportin present at the membrane these cells and by inducing its internalization and degradation.

Accordingly, hepcidin can be considered a hyposidérémiante hormone. The hepcidin rate is increased by the iron thereby limiting its accumulation and tissue damage associated with iron overload. Inversely, the rate is reduced hepcidin during increased iron as anemia needs, hypoxia, pregnancy or other situations of iron deficiency.

Moreover, hepcidin is strongly induced by inflammation. Thus, in pathological situations such as cancer, high levels of hepcidin explain well enough inflammatory anemia characterized by anemia, iron retention at storage proteins such as ferritin but also at the level of the reticuloendothelial system endothelial and a decrease in intestinal iron absorption.

Despite its importance in the pathophysiology of anemia of inflammation and a fortiori with iron deficiency anemia functional hepcidin is not measured in clinical routine. There is not, to the investigators knowledge, prospective data on its blood levels in situations of iron deficiency anemia in cancer patients functional and data on changes in hepcidin levels induced by treatment with intravenous iron or with erythropoietin.