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Trials / Completed

CompletedNCT03541213

Impact of Iron Deficiency and Its Correction on Mitochondrial Metabolism of the Cardiomyocyte (MitoCardioFer)

Impact de la Carence Martiale et de Son Traitement Sur le métabolisme Mitochondrial du Cardiomyocyte (MitoCardioFer)

Status
Completed
Phase
N/A
Study type
Interventional
Enrollment
55 (actual)
Sponsor
University Hospital, Angers · Other Government
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

Iron is involved in essential functions of the body. It allows the transport of oxygen in the blood, via hemoglobin, at the muscular level, via myoglobin, and it is also involved in cellular metabolism in general, in particular for the production of ATP at the mitochondrial level, within the cytochromes and iron-sulfur proteins of the respiratory chain. Recently, iron deficiency has been identified as an important prognostic factor in heart failure patients. Iron therapy improves symptoms and physical performances of heart failure patients, even in the absence of anemia. As a result, the correction of iron deficiency is now proposed as one of the therapies for heart failure. However, the pathophysiology of the association between cardiac dysfunction and iron deficiency is still poorly understood. The investigators previously developed a mouse model of iron deficiency without anemia, in which the investigators observed impaired physical performances, a decrease of left ventricular ejection fraction, and a decrease in mitochondrial complex I activity. These abnormalities were normalized after iron injection. These animal data suggest that iron deficiency is responsible for left ventricular dysfunction secondary to mitochondrial I complex abnormalities, and that iron therapy corrects them. Iron deficiency is very common in the preoperative period of cardiac surgery, affecting 40 to 50% of patients. During this surgery, it is possible to perform a myocardial biopsy without risk to the patient. The purpose of this study is to verify in patients requiring valvular heart surgery, if iron deficiency is responsible for a decrease in mitochondrial complex I activity and a decrease in cardiac function during the perioperative period, and to verify whether iron treatment improves these abnormalities.

Detailed description

Iron is involved in essential functions of the body. It allows the transport of oxygen in the blood, via hemoglobin, at the muscular level, via myoglobin, and it is also involved in cellular metabolism in general, in particular for the production of ATP at the mitochondrial level, within the cytochromes and iron-sulfur proteins of the respiratory chain. Iron deficiency has been shown to be responsible for fatigue and muscle weakness, regardless of the presence of an anemia. Recently, iron deficiency has been identified as an important prognostic factor in heart failure patients, with a prevalence increasing with NYHA class level, and association with mortality. Iron therapy improves the symptoms of heart failure patients and the 6-minute walk test, even in the absence of anemia. The correction of iron deficiency is now proposed as one of the therapies for heart failure. However, the pathophysiology of the association between cardiac dysfunction and iron deficiency is still poorly understood. The investigators previously developed a mouse model of iron deficiency without anemia, in which the investigators observed impaired physical performances, a decrease of left ventricular ejection fraction, and a decrease in mitochondrial complex I activity. These abnormalities were normalized after iron injection. These animal data suggest that iron deficiency is responsible for left ventricular dysfunction secondary to mitochondrial I complex abnormalities, and that iron therapy corrects them. Iron deficiency is very common in the preoperative period of cardiac surgery, affecting 40 to 50% of patients. During this surgery, it is possible to perform a myocardial biopsy without risk to the patient. There is therefore an opportunity to further explore the impact of iron deficiency and its treatment on mitochondrial energy metabolism of cardiomyocytes. We hypothesize that the activity of the mitochondrial complex I is decreased in the presence of iron deficiency and that the iron treatment corrects this decrease. The purpose of this study is to verify in patients requiring valvular heart surgery, if iron deficiency is responsible for a decrease in mitochondrial complex I activity and a decrease in cardiac function during the perioperative period, and to verify whether iron treatment improves these abnormalities.

Conditions

Interventions

TypeNameDescription
PROCEDUREmyocardial biopsyMyocardial biopsy (after opening cardiac cavities under general anesthesia for valvular surgery) for mitochondrial metabolism analyses.
PROCEDUREsternal bone marrow biopsySternal bone marrow biopsy (after sternal opening under general anesthesia for valvular surgery) for the quantification of iron stores
BIOLOGICALblood sampleblood sample (under general anesthesia for valvular surgery, using the arterial catheter already in place) for hepcidin quantification (hormone not dosed in the usual martial assessment)

Timeline

Start date
2019-01-23
Primary completion
2020-09-07
Completion
2020-09-07
First posted
2018-05-30
Last updated
2022-07-29

Locations

1 site across 1 country: France

Source: ClinicalTrials.gov record NCT03541213. Inclusion in this directory is not an endorsement.