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Query: UMLS:C0039730 (thalassemia)
10,305 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertransfusion and regular chelation therapy have allowed improved survival in patients with thalassemia major (TM). Despite medical advances, growth failure and hypogonadism remain significant clinical problems in these patients in adolescence. Disproportionate truncal shortening which is common especially among adolescents with thalassemia, is due to platyspondyly resulting from a combination of factors like hemosiderosis, desferrioxamine toxicity or deficiency of trace elements. Although growth hormone (GH) deficiency and GH neurosecretory dysfunction have been described in TM patients, most short TM patients have normal GH reserve. The low serum IGF-1 and IGFBP-3 concentrations in TM patients despite having normal GH reserve and serum GH binding protein levels suggest that a state of secondary GH insensitivity exists. The pubertal growth spurt may be impaired in TM patients going through spontaneous or induced puberty and may have a negative effect on final adult height. GH therapy in dosages ranging from 0.5-1.0 IU/kg/wk has resulted in a significant improvement in growth velocity in short TM children without any adverse effects on skeletal maturation, blood pressure, glucose tolerance and serum lipids. There is limited evidence that GH treatment can result in an improved final adult height in short TM children. Careful and regular clinical and biochemical monitoring should be preformed on these patients while they are treated with GH.
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PMID:Growth of children with beta-thalassemia major. 1575 40

With the introduction of "hypertransfusion" regimens the extent of disease- and therapy-related hemosiderosis has become the survival limiting factor for patients with beta-thalassemia major as iron transferred with transfusions cannot be excreted by physiological means. Subsequent introduction of deferoxamine therapy for iron elimination and prophylaxis of hemosiderosis has improved prognosis and life quality of these patients considerably. We report our experience with seven adolescent patients with beta-thalassemia and ineffective subcutaneous therapy and severe hemosiderosis-related organ complications. For that reason they received i. v. intensified chelate therapy. The patients were given 70 to 120 mg/kg DFO 7 days a week continuously via a Port-a-cath or Hickman central venous line. Under high-dose i. v. DFO therapy, serum ferritin levels significantly decreased in all patients. Target serum ferritin levels of 3 000 ng/ml were reached after 12 to 20 months of treatment. In 3 of the 5 patients that were treated for longer than 43 months serum ferritin levels even dropped below 2 000 ng/ml. Serum ferritin levels also correlated well with SQUID examinations. Therefore, monitoring of serum ferritin may be useful to monitor patient's compliance and control intensified DFO therapy. Continuous administration of the intensified DFO therapy induced normalization of liver function and left ventricular cardiac function in all patients who are still alive. Two patients died due to cardiac decompensation. In five patients 19 episodes of central catheter-related infections were observed (1.5 infections per 1 000 catheter days). No DFO-associated allergic reactions nor irreversible organ dysfunction were observed. Our results indicate that intensified i. v. DFO therapy is an effective and safe method for treatment of severe organ dysfunction in patients with thalassemia major. The most severe problems are catheter-related infections and inconsistent long-term compliance.
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PMID:Intensification of chelating-therapy in patients with thalassemia major. 1585 2

Although it is life saving, transfusion therapy has resulted in the majority of sickle cell anemia and thalassemia patients being at risk for hemosiderosis-induced organ damage. It is unknown whether the complications of iron overload are affected by the underlying disease. In order to address this problem, we compared the prevalence of organ dysfunction in both groups of patients receiving chronic transfusion therapy (beta thalassemia, N = 30; sickle cell anemia, N = 43). Both groups had similar quantitative liver iron. Thalassemia patients had greater cardiac disease (20% vs. 0%), growth failure (27% vs. 9%), and endocrine failure (37% vs. 0%). The strongest predictors of combined endocrine and cardiac disease in multivariate analysis were duration of chronic transfusion (P = 0.03) and diagnosis (P = 0.03). Quantitative liver iron concentration on a single liver biopsy was not predictive of cardiac or endocrine injury. Viral hepatitis is the strongest predictor of hepatocellular damage (P = 0.009), while the development of liver fibrosis is more closely related to liver iron concentration (P = 0.04). In conclusion, sickle cell anemia and thalassemia differ in the prevalence of organ injury. This difference is related to the duration of iron exposure and the specific hemoglobinopathy. A prospective study with a larger number of subjects is needed to confirm the relationships between specific diagnosis, liver iron concentration over time, and organ dysfunction.
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PMID:Comparison of organ dysfunction in transfused patients with SCD or beta thalassemia. 1613 45

Therapy with either deferiprone (DFP) or deferoxamine (DFO) is inadequate in achieving negative iron balance in many patients with thalassemia. There are mounting theoretical, experimental, and clinical evidences of increased efficacy when therapy includes both chelating agents. DFP and DFO chelate excess iron in different ways without affecting each other's metabolism. When both chelators are administered simultaneously, they interact either in an additive or synergistic manner, probably through "shuttling" iron from DFP to DFO. Iron-balance studies have shown that the use of both agents on the same day can induce negative iron balance in all patients. Long-term combined therapy with DFO with DFP results in considerable reduction of both ferritin levels and liver iron concentration as well as significant improvement in cardiac siderosis and function. This therapeutic regimen is well tolerated and safe, even though it may be related to a small increase in the incidence of agranulocytosis compared with DFP monotherapy. Apart from using both agents simultaneously, sequential administration of DFP and DFO has also shown promising results. Combining the available iron chelators offers many therapeutic options that can be tailored to each patient individually. It is an exciting advance in treating hemosiderosis in thalassemic patients.
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PMID:Combined therapy with deferoxamine and deferiprone. 1633 63

The skeletal changes of untreated thalassaemia result from ineffective erythropoiesis and expansion of the bone marrow and affect every part of the skeleton. These changes include osteoporosis, growth retardation, platyspondyly and kyphosis. Erythropoiesis occurs at extra-medullary sites, most commonly resulting in a paraspinal mass but occasionally affecting organs containing pluripotential stem cells. Repeated transfusion unaccompanied by iron chelation causes haemosiderosis; iron is deposited at various sites causing functional impairment. Iron-chelation therapy with desferrioxamine (DFX) prevents haemosiderosis but causes a skeletal dysplasia predominantly affecting the rapidly growing long bones, in particular the distal ulna, and causing irregularity and sclerosis of the physeal-metaphyseal junction and splaying of the metaphysis. DFX also exacerbates the observed growth retardation. DFX-induced skeletal dysplasia may herald toxicity, which is associated with visual and auditory impairment. Therefore, careful balancing of the transfusion regimen and iron-chelation therapy is required. Magnetic resonance imaging (MRI) is the most sensitive technique for the detection of DFX-induced dysplasia.
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PMID:The radiological appearances of thalassaemia. 1635 15

Chronic red blood cell transfusion support in patients with myelodysplastic syndromes (MDS) is often necessary but may cause hemosiderosis and its consequences. The pathophysiologic effects of iron overload relate to increased non-transferrin bound iron generating toxic oxygen free radicals. Studies in patients with MDS and thalassemia major have shown adverse clinical effects of chronic iron overload on cardiac function in patients who underwent polytransfusion. Iron chelation therapy in patients with thalassemia who were effectively chelated has prevented or partially reversed some of these consequences. A small group of patients with MDS who had undergone effective subcutaneous desferrioxamine (DFO) chelation for 1 to 4 years showed substantial hematologic improvements, including transfusion independence. However, because chronic lengthy subcutaneous infusions of DFO in elderly patients have logistic difficulties, this chelation therapy is generally instituted late in the clinical course. Two oral iron chelators, deferiprone (L1) and deferasirox (ICL670), provide potentially useful treatment for iron overload. This article reviews data indicating that both agents are relatively well tolerated, were at least as effective as DFO for decreasing iron burdens in comparative thalassemia trials, and (for deferiprone) were associated with improved cardiac outcomes. These outcomes could potentially alter the tissue siderosis-associated morbidity of patients with MDS, particularly those with pre-existing cardiac disease.
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PMID:Myelodysplastic syndromes: iron overload consequences and current chelating therapies. 1640 8

Therapeutic advances in thalassaemia major have significantly increased the average lifespan and improved the quality of life in thalassaemic patients. Therefore attainment of reproductive capacity and creation of a family has become a great task. Endocrine complications due to haemosiderosis and especially hypogonadotrophic hypogonadism are still present in a significant number of patients worldwide and often becomes a barrier in their desire for parenthood. The report of 358 successful pregnancies so far has provided strong evidence not only for the absence of any deleterious effect on the course of thalassaemia but also for the safety of the pregnancy in the thalassaemic woman. Ovarian function is well preserved in women suffering primary or secondary amenorrhea as they become able to conceive following a closely monitored stimulation therapy. The desire of the thalassaemic woman to become a mother is always viewed with special caution and sensitivity. Ambitions of this sort pose numerous medico legal and ethical issues that need to be addressed prudently if the patients' quality of life is to be optimized.
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PMID:Update on fertility in thalassaemia major. 1646 15

Over the years, several reports have demonstrated involvement of the nervous system in beta-thalassemia patients. Neurological complications have been attributed to various factors such as chronic hypoxia, bone marrow expansion, iron overload, and desferrioxamine neurotoxicity. In most cases, neurological involvement does not initially present with relevant signs or symptoms (i.e., is subclinical) and can only be detected during neurophysiological or neuroimaging evaluation. Abnormal findings in the visual, auditory, and somatosensory evoked potential recordings are mainly attributed to DFO neurotoxicity. On the other hand, nerve conduction velocity abnormalities are associated either to chronic hypoxia and older age or to hemosiderosis, whether by means of pancreas involvement or not. Neuropsychological studies available reveal a considerably high prevalence of abnormal IQ, not correlating, however, to factors such as hypoxia or iron overload. It is proposed that factors associated to severe chronic illness, rather than the disease per se, could be responsible for these findings. Such factors include regular school absence due to transfusions and frequent hospitalizations, physical and social restrictions resulting from the disease and its treatment, abnormal mental state due to the awareness of being chronically ill, and, last, the overly protective family attitude that leads to restricted initiative and psychosocial development. As life expectancy for beta-thalassemia patients extends, the use of neurophysiologic and neuropsychologic monitoring becomes imperative, enabling early detection of neural pathway impairment and allowing for appropriate management, in order to achieve a better life quality for this patient group.
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PMID:Neurological complications in beta-thalassemia. 1657 62

Pulmonary hypertension is a common complication of beta-thalassemia major. We report a case of successful treatment of pulmonary hypertension in a patient with beta-thalassemia major and review the literature on pulmonary hypertension and beta-thalassemia major. A 28-year-old man with beta-thalassemia major, splenectomy, hepatitis C, and hemosiderosis who presented with increasing dyspnea on exertion was diagnosed with pulmonary hypertension. After receiving continuous epoprostenol infusion and desferoxamine, his functional capacity and hemodynamic status improved. To our knowledge, this is the first case of pulmonary hypertension associated with beta-thalassemia treated with continuous epoprostenol infusion and desferoxamine. Epoprostenol, beneficial in the treatment of other types of pulmonary hypertension, may ameliorate the morbidity and mortality of pulmonary hypertension associated with thalassemia.
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PMID:Pulmonary hypertension and beta-thalassemia major: report of a case, its treatment, and a review of the literature. 1668 Jul 45

In beta-thalassemia, profound anemia and severe hemosiderosis cause functional and physiological abnormalities in various organ systems. In recent years, there have been few published studies demonstrating proteinuria, aminoaciduria, low urine osmolality, and excess secretion of the tubular damage markers, such as urinary N-acetyl-D-glucosaminidase (U(NAG)) and beta2 microglobulin, in patients with thalassemia. The object of this study was to analyze renal tubular and glomerular function in pediatric patients with beta-thalassemia and to correlate the renal findings to iron overload. Thirty-seven patients with beta-thalassemia major and 11 with thalassemia intermedia were studied. Twelve children without iron metabolism disorders or renal diseases served as a control group. No difference in blood urea nitrogen (BUN), serum creatinine, creatinine clearance, electrolytes, fractional excretion of sodium and potassium, and tubular phosphorus reabsorption was found. Serum uric acid was equal in the two groups, but its urine excretion was significantly higher in the thalassemic group. U(NAG) and U(NAG) to creatinine ratio (U(NAG/CR)) were elevated in all patients with thalassemia compared with the control group (p < 0.001) and were directly correlated to the amount of transfused iron but not to actual ferritin level. We found that renal tubular function is impaired in children with beta- thalassemia major and intermedia. It is not known whether these functional abnormalities would have any long-term effects on the patients. Further studies are needed, and means of preventing these disturbances should be sought.
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PMID:Renal function in children with beta-thalassemia major and thalassemia intermedia. 1858 Nov 45


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