Critical Illness Clinical Trial
Official title:
Evaluation of Oxidative Stress Induced by Iron Injection in Healthy Volunteers Versus Critical Care Patients
The purpose of this study is to evaluate the pro-oxidant toxicity of iron injections in
critically ill patients and in healthy volunteers. The investigators hypothesize that the
inflammatory state of critically ill patients will reduce the oxydative stress induced by
iron injections, compared to the one induced in healthy volunteers. It will be an open
"proof-of-concept" study aimed at evaluating iron toxicity in critically ill patients (n=40)
as compared to healthy volunteers (n=40).
The investigators will compare the oxidative stress (principal judgment criteria=
8-iso-PGF2α) following a 100 mg injection of iron (at T0, T2, T6 and T24 hours post
injection) in both groups and the investigators will compare the effect of repeated
injections in the critically ill patients.
Anemia is frequent among critically ill patients, with 60% of the patients being anemic at
admission and more than 80% at discharge. This anemia is associated with an increased
MORBI-mORTALITY. However, therapeutic options, mainly transfusion and erythropoietin, are
disappointing. There is a remaining therapeutic option, iron injection, which has not been
fully evaluated because of potential restrictions: inflammation may prevent its efficacy,
and iron could be toxic, notably through the generation of oxidative stress. Our research is
aimed at exploring the benefit of iron treatment in the critical care anemia.
The investigators already demonstrated in a MURIN model of critical care anemia that the
master regulator of iron metabolism, hepcidin, is repressed and that iron can be mobilized
from the stores despite inflammation. In addition, in an observational human study, the
investigators reported that 25% of critically ill patients had iron deficiency and low to
normal hepcidin levels.
All together, these data indicate that iron therapy may be beneficial in this situation. In
the present study, the investigators evaluate the toxicity of iron in that context of
critical care anemia. Iron, especially non-transferrin bound iron, is known to induce the
generation of oxygen-derived free radicals through the Fenton reaction. However, the
generation of oxidative stress secondary to iron injection has not been investigated in the
critically ill. In our animal model, preliminary data indicate that the production of
oxidative stress in the serum following iron injection may be prevented by inflammation.
Objectives: To evaluate the pro-oxidant toxicity of iron injections in critically ill
patients and in healthy volunteers. The investigators hypothesize that the oxidative stress
will be reduced in critically ill as compared to healthy volunteers
Human study : It will be an open "proof-of-concept" study aiming at evaluating iron toxicity
in critically ill patients (n=40) as compared to healthy volunteers (n=40).
The investigators will compare the oxidative stress (principal judgment criteria=
8-iso-PGF2α) following a 100 mg injection of iron (at T0, T2, T6 and T24 hours post
injection) in both groups and the investigators will compare the effect of repeated
injections in the critically ill patients.
Perspectives:
This study should confirm that iron does not produce more oxidant stress in critically ill
patients than in healthy volunteers. The animal study should help to precise the efficacy of
this treatment, in addition to its toxicity. All these results will help to design a phase
III randomized study of intravenous iron in critically ill anemic patients
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Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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