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Vol. 34. Issue 10.
Pages 637-638 (October 2015)
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Vol. 34. Issue 10.
Pages 637-638 (October 2015)
Letter to the Editor
Open Access
Anemia and iron in heart failure – A brief comment
Anemia e ferro na insuficiência cardíaca – um breve comentário
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José Pedro Lopes Nunes
Faculdade de Medicina da Universidade do Porto, Porto, Portugal
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I read with interest a letter mentioning our paper on “Anti-troponin I antibodies in renal transplant patients”, recently published.1 Since the text is on a different topic, iron metabolism in heart failure, I will start by briefly commenting on this latter theme.

Medical textbooks have traditionally paid a considerable degree of attention to anemia and to iron deficiency. The underlying line of reasoning is that as iron is an essential element for the production of erythrocytes, insufficient body iron stores may lead to anemia, a situation that can be corrected by the administration of iron. Conventional medical wisdom has been that it is better to have a hemoglobin concentration in the normal range, rather than a lower one.

Data obtained in chronic renal failure patients with the use of erythropoiesis-stimulating agents (compared to placebo) caused a shift in medical thinking on the subject under consideration. Studies by Singh et al.,2 Drueke et al.3 and Pfeffer et al.4 have clearly shown that normal or near-normal values for hemoglobin lead to worse outcomes in patients with chronic renal failure, compared to lower values, leading to the current policy of avoiding hemoglobin values greater than 11.5 g/dl in these patients (therefore, normal is not always better).

It was not until the turn of the millennium that an important regulator of iron metabolism5 was discovered – hepcidin.6,7 As iron is important not only for human cells but also for invading microbial cells, the human body has a hepcidin-based mechanism to withdraw iron from the circulation in the presence of infection.5 Many inflammatory states would appear to be interpreted as stimuli for the action of hepcidin – giving rise to the so-called anemia of chronic disease. In a study carried out in preschool children in Africa (in a region with a high incidence of malaria), Sazawal et al. showed that routine prophylactic supplementation with iron and folic acid resulted in an increased risk of severe illness and death.8

With regard to heart failure, a condition frequently associated with anemia (and also with inflammation9), Swedberg et al. showed that darbepoetin alfa did not improve clinical outcomes in this setting.10 Adverse thromboembolic events were in fact increased in the intervention patient group.10 Anemia in heart failure may have different types of causes, one of which is the action of angiotensin-converting enzyme inhibitors.11 Enalapril has been shown to increase the incidence of anemia in patients with heart failure.11 Hepcidin was shown to be decreased in patients with heart failure and anemia,12 and has an uncertain role in this disease (unlike the case of hemodialysis patients, who have increased hepcidin levels13).

Anemia is associated with increased mortality in patients with heart failure, however it is unclear whether it is a marker or a mediator of increased mortality risk in this setting.14 Ferric carboxymaltose has been used in patients with heart failure and “iron deficiency”, with improvement in symptoms, functional capacity, and quality of life.15,16 However, data are available for only up to one year of therapy, and the longer-term effects of ferric carboxymaltose are unclear. Iron deficiency was diagnosed if ferritin <100 ng/ml or 100–299/300 ng/ml if transferrin saturation <20%, meaning that it is uncertain whether total body iron stores were decreased in all patients studied.15,16 “Iron deficiency”, under the same criteria, has been shown to act as a marker for an unfavorable prognosis in patients with heart failure.17,18

Getting back to the comment on our text,1 we did not report that “the levels of antibodies were associated with reduced left ventricular ejection fraction”, neither did we state that “inflammatory mediators such as antibodies can be used as a marker of cardiac dysfunction”.

Moreover, I would certainly not agree with the concept that erythropoietin “seems to be an efficient therapy” for heart failure (as the data presented above10 show).

However, we did publish a case report,19 mentioned in our text, in which high titers of anti-troponin I antibodies were associated with the partial reversibility of a clinical picture of dilated cardiomyopathy, after immunosuppressive drugs were used. We presented the hypothesis that “the syndrome of reversible cardiomyopathy seen after renal transplantation is associated with immunosuppression therapy acting on immunological mechanisms previously at play”.19

The speculation that anti-troponin I antibodies, acting as inflammatory mediators, could “lead to the inhibition of iron absorption at the duodenal level” – and this would seem to be the major point to be considered in the text – is worthy of consideration, in my view.

References
[1]
J.P.L. Nunes, S. Sampaio, A. Cerqueira, et al.
Anti-troponin I antibodies in renal transplant patients.
Rev Port Cardiol, 34 (2015), pp. 85-89
[2]
A.K. Singh, L. Szczech, K.L. Tang, et al.
Correction of anemia with epoetin alfa in chronic kidney disease.
N Engl J Med, 355 (2006), pp. 2085-2098
[3]
T.B. Drueke, F. Locatelli, N. Clyne, et al.
Normalization of hemoglobin level in patients with chronic kidney disease and anemia.
N Engl J Med, 355 (2006), pp. 2071-2084
[4]
M.A. Pfeffer, E.A. Burdmann, C.Y. Chen, et al.
A trial of darbepoetin alfa in type 2 diabetes and chronic kidney disease.
N Engl J Med, 361 (2009), pp. 2019-2032
[5]
H. Drakesmith, A.M. Prentice.
Hepcidin and the iron-infection axis.
Science, 338 (2012), pp. 768-772
[6]
A. Krause, S. Neitz, H.J. Magert, et al.
LEAP-1, a novel highly disulfide-bonded human peptide, exhibits antimicrobial activity.
FEBS Lett, 480 (2000), pp. 147-150
[7]
C.H. Park, E.V. Valore, A.J. Waring, et al.
Hepcidin, a urinary antimicrobial peptide synthesized in the liver.
J Biol Chem, 276 (2001), pp. 7806-7810
[8]
S. Sazawal, R.E. Black, M. Ramsan, et al.
Effects of routine prophylactic supplementation with iron and folic acid on admission to hospital and mortality in preschool children in a high malaria transmission setting: community-based, randomised, placebo-controlled trial.
[9]
S.D. Anker, S. von Haehling.
Inflammatory mediators in chronic heart failure: an overview.
Heart, 90 (2004), pp. 464-470
[10]
K. Swedberg, J.B. Young, I.S. Anand, et al.
Treatment of anemia with darbepoetin alfa in systolic heart failure.
N Engl J Med, 368 (2013), pp. 1210-1219
[11]
A. Ishani, E. Weinhandl, Z. Zhao, et al.
Angiotensin-converting enzyme inhibitor as a risk factor for the development of anemia, and the impact of incident anemia on mortality in patients with left ventricular dysfunction.
J Am Coll Cardiol, 45 (2005), pp. 391-399
[12]
M. Matsumoto, T. Tsujino, M. Lee-Kawabata, et al.
Iron regulatory hormone hepcidin decreases in chronic heart failure patients with anemia.
Circ J, 74 (2010), pp. 301-306
[13]
M. do Sameiro-Faria, S. Ribeiro, E. Costa, et al.
Risk factors for mortality in hemodialysis patients: two-year follow-up study.
Dis Mark, 35 (2013), pp. 791-798
[14]
M. Kosiborod, J.P. Curtis, Y. Wang, et al.
Anemia and outcomes in patients with heart failure: a study from the National Heart Care Project.
Arch Intern Med, 165 (2005), pp. 2237-2244
[15]
S.D. Anker, J. Comin Colet, G. Filippatos, et al.
Ferric carboxymaltose in patients with heart failure and iron deficiency.
N Engl J Med, 361 (2009), pp. 2436-2448
[16]
P. Ponikowski, D.J. van Veldhuisen, J. Comin-Colet, et al.
Beneficial effects of long-term intravenous iron therapy with ferric carboxymaltose in patients with symptomatic heart failure and iron deficiency.
Eur Heart J, 36 (2015), pp. 657-668
[17]
E.A. Jankowska, P. Rozentryt, A. Witkowska, et al.
Iron deficiency: an ominous sign in patients with systolic chronic heart failure.
Eur Heart J, 31 (2010), pp. 1872-1880
[18]
I. Rangel, A. Goncalves, C. de Sousa, et al.
Iron deficiency status irrespective of anemia: a predictor of unfavorable outcome in chronic heart failure patients.
Cardiology, 128 (2014), pp. 320-326
[19]
J.P.L. Nunes, M.S. Faria, S. Sampaio, et al.
Partially reversible cardiomyopathy after renal transplant associated with anti-troponin I antibodies.
Cardiology, 126 (2013), pp. 173-174
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