Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The thalassemias are common monogenic disorders of hemoglobin synthesis. beta-thalassemias are the most important among the thalassemia syndromes and have become a worldwide clinical problem due to an increasing immigrant population. In beta-thalassemia major, regular blood transfusions are necessary early in life. Beta-thalassemia intermedia refers to a less severe phenotype, whereas beta-thalassemia/hemoglobin E disease encompasses a broad phenotypic spectrum. Blood transfusions and increased gastrointestinal iron absorption result in iron overload and tissue damage. Among patients with beta-thalassemia major, biventricular, dilated cardiomyopathy remains the leading cause of mortality. In some patients, a restrictive type of left ventricular cardiomyopathy or pulmonary hypertension is noted. The clinical course, although variable and occasionally fulminant, is more benign in recent than in older series. Myocarditis has been described as a cause of left-sided heart failure in younger patients. Pulmonary arterial hypertension is the principal cause of heart failure in beta-thalassemia intermedia. Chelation therapy has improved prognosis in beta-thalassemia major both by reducing the incidence of heart failure and by reversing cardiomyopathy. Estimation of the patient's cardiac risk is mainly based on clinical criteria and serial echocardiography. A new cardiovascular magnetic resonance technique will probably fulfill the need for more precise risk stratification in beta-thalassemia syndromes. By increasing the proportion of patients on optimal chelation, survival in beta-thalassemia major may further improve. Recent advances in gene therapy are expected to result in the long-awaited cure of this disease.
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PMID:Heart failure in beta-thalassemia syndromes: a decade of progress. 1616 78

The life expectancy of patients with thalassemia major has significantly increased in recent years, as reported by several groups in different countries. However, complications are still frequent and affect the patients' quality of life. In a recent study from the United Kingdom, it was found that 50% of the patients had died before age 35. At that age, 65% of the patients from an Italian long-term study were still alive. Heart disease is responsible for more than half of the deaths. The prevalence of complications in Italian patients born after 1970 includes heart failure in 7%, hypogonadism in 55%, hypothyroidism in 11%, and diabetes in 6%. Similar data were reported in patients from the United States. In the Italian study, lower ferritin levels were associated with a lower probability of experiencing heart failure and with prolonged survival. Osteoporosis and osteopenia are common and affect virtually all patients. Hepatitis C virus antibodies are present in 85% of multitransfused Italian patients, 23% of patients in the United Kingdom, 35% in the United States, 34% in France, and 21% in India. Hepatocellular carcinoma can complicate the course of hepatitis. A survey of Italian centers has identified 23 such cases in patients with a thalassemia syndrome. In conclusion, rates of survival and complication-free survival continue to improve, due to better treatment strategies. New complications are appearing in long-term survivors. Iron overload of the heart remains the main cause of morbidity and mortality.
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PMID:Survival and complications in thalassemia. 1633 50

Magnetic resonance T2* values of the myocardium are directly related to tissue iron levels. Minor effects from myocardial oxygenation and fibrosis are overwhelmed by the highly dominant iron effect in clinically relevant levels of myocardial iron overload. Myocardial T2* values less than 20 ms indicate iron overload, and this is considered severe when T2* is less than 10 ms. Decreasing myocardial T2* levels are associated with systolic and diastolic ventricular dysfunction. Most recorded cases of heart failure in thalassemia to date have occurred in patients with very low T2* values (in the severe range). Exceptions to this have occurred in patients with other causes of heart failure such as concomitant congenital heart disease. In patients presenting with heart failure who undergo aggressive chelation with continuous intravenous deferoxamine, longitudinal studies show that myocardial T2* increases, and this is accompanied by increases in ejection fraction and relief of heart failure. In cross-sectional studies, the myocardial T2* and ejection fraction of patients on deferiprone was superior to that of patients on deferoxamine. Randomized controlled prospective trials comparing these two drugs for their action in clearing myocardial iron, as measured by myocardial T2*, are under way and should report in 2005/2006. These trials will clarify the role of different chelators in the management of myocardial iron overload and may be valuable in reducing the toll of death in thalassemia from heart failure.
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PMID:T2* magnetic resonance and myocardial iron in thalassemia. 1633 85

Heart failure secondary to iron overload is the main cause of death in patients with beta-thalassemia major. Combination therapy with deferoxamine and deferiprone has been shown to be more effective than either drug used alone in patients with beta-thalassemia major and symptomatic cardiomyopathy. Although monitoring the response to chelation therapy is usually carried out by indirect measurement of the serum ferritin level or by direct determination of tissue iron content in biopsy specimens, magnetic resonance imaging (MRI) seems to be useful for noninvasive qualitative and quantitative assessment of iron deposition. We present a case in which the efficacy of double chelation therapy in a patient with beta-thalassemia major and heart failure was demonstrated by MRI.
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PMID:[Magnetic resonance imaging evidence of the effectiveness of combination chelation therapy in iron overload cardiomyopathy]. 1643 9

Iron overload is the main cause of morbidity and mortality especially from heart failure in patients with beta thalassemia major (TM). Successful iron chelation is therefore essential for the optimal management of TM. Although desferrioxamine (DFX) has been the major iron-chelating treatment of transfusional iron overload, compliance is a major hindrance in achieving optimal therapeutic results. The availability of oral iron chelation with deferiprone (L(1)) since 1987 is useful but showed poor efficacy when used alone as compared to DFX. We therefore decided to compare DFX alone with a prospective combined therapy with DFX and L(1) in beta thalassemia major patients with iron overload. We studied 91 patients with beta thalassemia major (mean age+/-SD, 15.02+/-5.8; range 2-30 years) attending the day care unit for regular transfusional support. They received packed red cells every 3-4 weeks to maintain pretransfusion hemoglobin concentration above 9 g/dl. They had been receiving DFX at a daily dose of 40 mg kg(-1) day(-1) by subcutaneous infusion for 8-10 h on 4-5 nights each week for the past several years. However, due to various reasons, they had developed considerable transfusional iron overload. These patients were allocated to prospectively receive additional therapy with oral iron chelator L(1) at 75 mg kg(-1) day(-1) body weight in three divided doses with food after informed consent and continued to receive treatment with DFX as per the above dosage. Of the 91 patients, six developed severe gastrointestinal (GI) upset, two agranulocytosis, two arthropathy, one persistently raised liver enzymes, two died owing to sepsis, and two received allogeneic bone marrow transplantation. Amongst the remaining 76 patients, 21 were found noncompliant (not taking DFX regularly, but taking L(1) regularly). Thus, in the 55 evaluable patients {6-48 months on combination therapy; mean [(+/-SD)22+/-12 months]}, the mean serum ferritin (+/-SD) fell dramatically from 3,088 (+/-1,299) ng/ml (DFX alone) to 2,051 (+/-935) ng/ml (DFX and L(1); p<0.001). It is interesting to note that there was also a significant improvement in the myocardial function as assessed by the ejection fraction (p<0.004) and fractional shortening (p<0.05) in those patients (n=42) who could be studied after being on combination therapy for a minimum of 1 year. The study emphasizes that beta thalassemia major patients with transfusional iron overload can be successfully treated with a combination of DFX and L(1). Our results also demonstrate a significant statistical improvement after as little as 6 months of combination therapy. Furthermore, these improvements lead to a progressive fall in the mean serum ferritin. Lastly, the study also demonstrates significant improvement in the echocardiographic parameters of myocardial performance in these patients receiving combination therapy.
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PMID:Combined therapy with desferrioxamine and deferiprone in beta thalassemia major patients with transfusional iron overload. 1645 Jan 26

We report the case of a 25-years-old male with beta-thalassemia major who developed acute heart failure, with severe systolic dysfunction, resulting from iron overload. Combined iron chelation with desferrioxamine and deferiprone together with standard cardiological treatment induced prompt and complete restoration of the cardiac function.
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PMID:Successful recovery of acute hemosiderotic heart failure in beta-thalassemia major treated with a combined regimen of desferrioxamine and deferiprone. 1678 38

Juvenile hemochromatosis (JH) is a rare autosomal recessive disorder of iron metabolism, genetically heterogeneous. In JH, symptomatic organ involvement occurs as early as the second decade of life. Heart failure and/or arrhythmias are the most frequent causes of death. Phlebotomy is the safest, most effective, and most economic therapeutic approach in hemochromatosis patients but is not indicated during the treatment of severe congestive heart failure with unstable hemodynamic status. The treatment of iron overload in these prohibitive clinical situations has to be carried out using iron chelators. We report a case of heart failure in the setting of unrecognized juvenile hemochromatosis successfully treated by the simultaneous administration of deferoxamine and deferiprone. To our knowledge, this is the first patient affected by JH treated with combined chelation regimen.
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PMID:Reversal of cardiac complications by deferiprone and deferoxamine combination therapy in a patient affected by a severe type of juvenile hemochromatosis (JH). 1696 Jan 53

Despite usual iron chelating therapy based on desferrioxamine, patients affected by beta-thalassemia major (beta-TM) often develop progressive heart failure caused by myocardial iron overload, which is the leading cause of mortality within the third decade of life. Heart transplantation is a limited therapeutic option, as very often these patients have multi-organ iron deposits and infective complications (particularly hepatitis C), secondary to frequent blood transfusions. We report the case of a 26-year-old male affected by beta-TM with end-stage heart failure, who showed a dramatic improvement in symptoms and myocardial function when a new oral iron chelating agent, deferiprone, was added to standard therapy with desferrioxamine.
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PMID:Effects of combined deferiprone and desferrioxamine iron chelating therapy in beta-thalassemia major end-stage heart failure: a case report. 1702 59

Hereditary hemochromatosis is now recognized as a very common inherited disease of the Caucasian population. It is defined as a disorder of unique clinicopathology caused by mutations of genes that control iron metabolism. Inappropriately increased intestinal iron absorption and accelerated recycling of iron by macrophages lead to progressive body iron accumulation and the generation of oxidative stress in tissues. This results in significant cellular damage, induction of inflammation, and fibrosis. Liver cirrhosis, hepatocellular carcinoma, diabetes mellitus, and cardiac insufficiency are diagnosed in the advanced phase of this disease. The natural course is modified by environmental factors and personal predisposition. Three forms of hemochromatosis with the pathophysiology of iron overload are described. Among them the classical form, juvenile hemochromatosis with severe course and circulatory insufficiency, and ferroportin disease are presented. Properly directed diagnostics makes early treatment protecting against disease progression and multiorgan insufficiency possible.
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PMID:[Hereditary hemochromatosis: the most frequent inherited human disease]. 1724 17

Since the discovery of HFE gene in 1996, considerable progress has been made concerning the iron-metabolism and its major abnormalities. Five types of hereditary hemochromatosis are actually known: type 1 (HFE gene), type 2A (HJV gene), type 2B (HAMP gene), type 3 (TfR2 gene), type 4 (SLC40A1 gene). The HFE C282Y +/+ mutation is responsible for the most frequent type of hemochromatosis in France. Various secondary causes can lead to iron-overload: associated genetic diseases, exogenous iron intake, thalassaemia and refractory anaemia, hepatic siderosis, alcoholic hepatitis, cutaneous porphyria and cirrhosis. The deleterious consequences of iron-overload are due to the interactions of the environmental factors. The role of HFE heterozygote mutations is still discussed. In clinical practice, the interpretation of a serum ferritin increase is a frequent problem that needs a careful evaluation based on the tranferrin saturation measurement. Significant increase of both these factors is in favour of an HFE C282Y +/+ hemochromatosis, after exclusion of a hepatocellular insufficiency or a refractory anaemia. Nevertheless, high ferritin is not always a marker of iron-overload. Thus, there are many disorders increasing the serum ferritin levels without iron overload : cytolysis (hepatic...), inflammatory or infectious syndromes, high alcohol intake, neoplasia... Looking for HFE mutations help to separate type 1 hemochromatosis from other conditions mainly hepatic siderosis (metabolic disorders). The identification of rare types of hemochromatosis (types 2-4) is only required in particular cases. The evaluation of the iron overload is now based on hepatic MRI determination rather than liver biopsy. Repeated phlebotomies remain the essential way to decrease the iron overload in HFE hemochromatosis and to prevent the occurrence of severe and irreversible complications (cirrhosis, arthropathies, cardiac failure, and diabetes). Because of the link established between the amount of iron-overload and the occurrence of complications and the mortality over-risk in HFE C282Y +/+ hemochromatosis, venesections must be started when serum ferritin is higher than 300 microg/l in man and 200 microg/l in woman, whatever the clinical manifestations are and obviously before the symptomatic phase of the disease.
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PMID:[Hereditary and acquired iron overload]. 1737 75


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