Hyper-hemolytic transfusional reaction in sickle cell patients: two case reports

The chronic character of sickle cell anemia associated with the greater capacity to liberate oxygen by the Hb S, results in patients exhibiting few symptoms in relation to the anemia and they do not require regular hemacias transfusions. Nevertheless, in the face of acute complications, the additional drop in hemoglobin can precipitate an imbalance in the cardio-respiratory function and put the life of the patient at risk, making blood transfusion therapy of utmost importance. In the light of the increased frequency of transfusions to which these patients are submitted, knowledge of the main risks and an adequate diagnosis of the complications caused by transfusional therapy are of fundamental importance. An atypical form of transfusional reaction, denominated hyperhemolytic transfusional reaction was recently described in sickle cell anemia patients after the transfusion of apparently compatible hemacias. In this case, previous conditions can exacerbate the hemolytic condition and put the life of the patient at risk. The pathophysiological conditions of this disease are not yet understood well and the treatment consists of suspending transfusions, corticoid therapy and / or administration of immunoglobulin. The aim of this work is o present two case reports of hyperhemolytic transfusional reaction in sickle cell anemia patients.O caráter crônico da anemia, nos pacientes portadores de anemia falciforme, associado à maior capacidade de liberação de oxigênio pela Hb S, faz com que sejam pouco sintomáticos em relação à anemia e não necessitem de forma rotineira de transfusão de hemácias. Contudo, na vigência de complicações agudas, a queda adicional da hemoglobina pode precipitar descompensação da função cardio-respiratória e colocar em risco a vida do paciente, tornando a transfusão de sangue um recurso terapêutico de grande importância. Em virtude da elevada freqüência de transfusões a que esses pacientes são submetidos, é de fundamental importância o conhecimento dos principais riscos e o diagnóstico adequado das complicações decorrentes da terapia transfusional. Uma forma atípica de reação transfusional, denominada reação transfusional hiperhemolítica, foi descrita recentemente em pacientes com anemia falciforme após transfusão de hemácias aparentemente compatíveis. (4,5,6,7) Nesta condição, transfusões ulteriores podem exacerbar o quadro hemolítico e colocar em risco a vida do paciente. Os mecanismos patofisiológicos exatos dessa entidade ainda não são bem conhecidos e o tratamento consiste na suspensão da transfusão, corticoterapia e/ou administração de imunoglobulina. O objetivo deste trabalho é apresentar o relato de dois casos de reação transfusional hiperhemolítica em pacientes portadores de anemia falciforme.Universidade Federal de São Paulo (UNIFESP)Santa Casa de São Paulo Faculdade de Ciências MédicasUNIFESPSciEL

Non-HFE hemochromatosis

Hereditary hemochromatosis (HH) is an autosomal recessive disorder classically related to HFE mutations. However, since 1996, it is known that HFE mutations explain about 80% of HH cases, with the remaining around 20% denominated non-HFE hemochromatosis. Nowadays, four main genes are implicated in the pathophysiology of clinical syndromes classified as non-HFE hemochromatosis: hemojuvelin (HJV, type 2Ajuvenile HH), hepcidin (HAMP, type 2B juvenile HH), transferrin receptor 2 (TFR2, type 3 HH) and ferroportin (SLC40A1, type 4 HH). The aim of this review is to explore molecular, clinical and management aspects of non-HFE hemochromatosis

Intravenous iron therapy

Oral iron supplementation is usually the first choice for the treatment of iron deficiency anemia (IDA) because of its effectiveness and low cost. But unfortunately in many iron deficient conditions, oral iron is a less than the ideal treatment mainly because of adverse events related to the gastrointestinal tract as well as the long course required to treat anemia and replenish body iron stores. The first iron product for intravenous use was high-molecular-weight iron dextran. However, dextran-containing intravenous iron preparations are associated with an elevated risk of anaphylactic reactions, which made physicians reluctant to prescribe intravenous iron in the treatment of iron deficiency anemia for many years. In 1999 and 2001, two new intravenous iron preparations (ferric gluconate and iron sucrose) were introduced into the market as safer alternatives to iron dextran. Over the last five years, three new intravenous iron dextran-free preparations have been developed and have better safety profiles than the more traditional intravenous compounds, as none require test doses and all these products are promising in respect to a more rapid replacement of body iron stores (15-60 minutes/infusion) as they can be given at higher doses (from 500 mg to more than 1000 mg/infusion). The purpose of this review is to discuss some pertinent issues in relation to the history, pharmacology, administration, efficacy, safety profile and toxicity of intravenous iron for the treatment of iron deficiency anemia

Intravenous ferric carboxymaltose for the treatment of iron deficiency anemia

ABSTRACT Nutritional iron deficiency anemia is the most common deficiency disorder, affecting more than two billion people worldwide. Oral iron supplementation is usually the first choice for the treatment of iron deficiency anemia, but in many conditions, oral iron is less than ideal mainly because of gastrointestinal adverse events and the long course needed to treat the disease and replenish body iron stores. Intravenous iron compounds consist of an iron oxyhydroxide core, which is surrounded by a carbohydrate shell made of polymers such as dextran, sucrose or gluconate. The first iron product for intravenous use was the high molecular weight iron dextran. However, dextran-containing intravenous iron preparations are associated with an elevated risk of anaphylactic reactions, which made physicians reluctant to use intravenous iron for the treatment of iron deficiency anemia over many years. Intravenous ferric carboxymaltose is a stable complex with the advantage of being non- dextran-containing and a very low immunogenic potential and therefore not predisposed to anaphylactic reactions. Its properties permit the administration of large doses (15 mg/kg; maximum of 1000 mg/infusion) in a single and rapid session (15-minute infusion) without the requirement of a test dose. The purpose of this review is to discuss some pertinent issues in relation to the history, pharmacology, administration, efficacy, and safety profile of ferric carboxymaltose in the treatment of patients with iron deficiency anemia