Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0039730 (thalassemia)
 10,305 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bone marrow transplantation (BMT) was mainly used for the treatment of immunological, hematological and oncological diseases. Genetic diseases can also be treated by transplantation of normal histocompatible allogeneic bone marrow. This type of marrow transplantation is used for the treatment of inborn errors whose clinical expression is restricted to lymphoid or hematopoietic cells. The therapeutic role of bone marrow transplantation in the treatment of generalized genetic diseases is under investigation. Genetic disorders that can be cured include congenital immune deficiencies, infantile malignant osteopetrosis, thalassemia, infantile agranulocytosis, chronic granulomatous disease, lysosomal storage diseases and others. The use of autologous bone marrow after the insertion of a normal gene (gene therapy) in vitro circumvents the need for a histocompatible donor.
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PMID:[Correction of fatal genetic diseases using bone marrow transplantation. 1]. 205 64

Allogeneic bone marrow grafts carried out after previous administration of antilymphocytic serum alone were attempted in 16 patients. Of these, six had acute myeloblastic leukaemia, four acute lymphoblastic leukaemia, and one a blast cell crisis in polycythaemia vera. Ten of these patients were in an overt phase of the disease and resistant to chemotherapy, while nine had complete agranulocytosis. In five of these patients erythrocyte and leucocyte antigenic markers demonstrated the establishment of the graft. One patient had thalassaemia major, and four others had aplasia of the bone marrow, in one case due to chloramphenicol poisoning and in another to virus hepatitis. The grafts were successful in the last two patients and transformed their clinical condition.No signs of early acute secondary disease were noted in any of the patients, either when the donor had been given antilymphocytic serum or when he was untreated. The grafts had no adoptive immunotherapeutic effect on the acute leukaemia. These observations have clearly shown that antilymphocytic serum has an immunosuppressive effect in man when it is used alone.
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PMID:Bone marrow graft in man after conditioning by antilymphocytic serum. 490 49

L1 is the most widely studied oral iron-chelating drug and at present the only one shown to be effective at causing negative iron balance in long-term clinical trials for thalassemia major and other transfusion-dependent refractory anaemias. Because of side-effects, both in experimental animals and in humans, its development as a widely available pharmaceutical agent has been delayed. However, for the large numbers of transfusion-dependent, iron-overloaded patients who do not use DFX because of poor compliance, adverse effects or unavailability of the drug, L1 may be a suitable alternative for iron chelation. However, its use should be restricted to Ethical Committee approved clinical trials. Patients who are capable of using DFX effectively should be encouraged to continue doing so until an oral iron chelator has been fully established for clinical use. It is hoped that 3-hydroxypyrid-4-one analogues of L1 as well as compounds related to pyridoxal isonicotinyl hydrazone, HBED or hydroxamic acid can be found both orally effective and safe for long-term administration. Current and future trials of L1 could address some of the following issues, beside extending present studies on the efficacy and adverse effects of L1: 1. The effect of administering a reduced dose of L1 (< 75 mg/kg per day) on the incidence of adverse effects and on long-term efficacy. 2. The efficacy and adverse effects of L1 at a low dose in patients with non-transfusional iron overload such as thalassaemia intermedia, primary haemochromatosis and congenital haemolytic anaemias. 3. The effect of combining oral L1 with intravenous or subcutaneous DFX on the incidence of adverse effects and efficacy. 4. Elucidation of the mechanisms involved in agranulocytosis and joint toxicity and finding methods to predict for individual susceptibility to these adverse effects and ways of preventing them.
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PMID:Oral iron-chelating therapy: the L1 experience. 788 Nov 61

Compliance with iron chelation therapy improves life expectancy in transfusion-dependent haematological disorders. However, failure of compliance with parenteral desferrioxamine (DF) therapy and the expense incurred makes this drug unavailable for most patients in the developing world. We have been evaluating the orally active iron chelator 1,2-dimethyl-3-hydroxypyrid-4-one (L1) in both preclinical and clinical trials. Five patients have developed reversible agranulocytosis during treatment with this agent. We have now studied the effects of L1, other alpha-ketohydroxypyridines and DF on bone marrow myeloid progenitors using the CFU-GM system. The results show that L1 is less toxic than DF to normal bone marrow myeloid progenitors (ID50:130 mumol/l versus 7.9 mumol/l). The L1 ID50 is within the previously reported range of peak plasma values (80-450 mumol/l). When saturating concentrations of iron were added to the cultures, the mean toxicity of all the chelators was significantly decreased over the range of doses tested, e.g. L1 ID50, 567 mumol/l; DF ID50, > 1000 mumol/l. The toxicity of L1 in vitro was similar for marrows from 3 normal donors and for the recovery marrow from a patient with thalassaemia major who had experienced agranulocytosis. Further studies are required to elucidate the mechanisms of L1-induced agranulocytosis.
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PMID:Differential toxicity of alpha-keto hydroxypyridine iron chelators and desferrioxamine to human haemopoietic precursors in vitro. 816 97

In the last few years we have witnessed the emergence of oral chelation which is a new form of therapy for transfusional iron-loaded patients in thalassaemia and other refractory anaemias. The need for a cheap, non-toxic, orally effective iron chelator is paramount because it could potentially save the lives of many thousands of patients. At present, less than 10% of the patients requiring iron chelation therapy worldwide receive the widely used chelating drug desferrioxamine (DF) because of its high cost, oral inactivity and toxicity. The most promising oral iron chelator is 1, 2-dimethyl-3-hydroxypyrid-4-one (L1 or INN: Deferiprone), which has so far been taken by over 450 patients in 15 countries, and in some cases daily for over 4 years with very promising results. L1 was shown at 50-100 mg/kg/day to be effective in bringing patients to negative iron balance. It increases urinary iron excretion, decreases serum ferritin levels and reduces liver iron in multi-transfused iron-loaded patients. Toxic side effects were mainly encountered at high doses (80-100 mg/kg/day) and include transient agranulocytosis (5 cases), transient musculoskeletal and joint pains (10-20%), gastric intolerance (2-6%) and zinc deficiency (1%). The incidence of these toxic side effects was reduced by using lower doses of 50-75 mg/kg/day. The overall efficacy and toxicity of L1 is comparable to that of DF in animals and humans. Further work is required for identifying susceptible individuals to L1 toxicity, and also optimum dose protocols of L1 which can maximise iron excretion and minimise the incidence of toxic side effects.
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PMID:Present status and future prospects of oral iron chelation therapy in thalassaemia and other diseases. 826 86

Agranulocytosis developed in a 20-year-old Greek patient with beta-thalassaemia major, 11 weeks after commencing chelation with the oral iron chelator 1,2-dimethyl-3-hydroxypyrid-4-one (L1) and 6 weeks after receiving the drug at a total daily dose of 105 mg/kg. The patient presented with generalised weakness, low-grade fever and sore throat. The total white cell count was 2.0 x 10(9)/l with 0.1 x 10(9)/l neutrophils. The patient was admitted to hospital and successfully treated with intravenous broad-spectrum antibiotics. Neutrophil count recovered 7 weeks later. A number of immunological tests were performed in an attempt to elucidate the cause of agranulocytosis. These investigations gave inconclusive evidence for the presence of a weak IgM antibody to myeloid cells exposed to L1 in this patient. Further studies are required, however, to evaluate the mechanism in any other patient who develops agranulocytosis in association with L1 therapy.
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PMID:Agranulocytosis in a patient with thalassaemia major during treatment with the oral iron chelator, 1,2-dimethyl-3-hydroxypyrid-4-one. 850 50

We performed an open, nonrandomized, multicenter phase-II trial to evaluate the efficacy and toxicity of 1 year of treatment with the oral iron chelator deferiprone in 38 mainly nonthalassemic patients with transfusional iron overload. Initial serum ferritin varied between 996 and 11.644 micrograms/l. Patients were treated with 3-6 g of deferiprone daily. Mean urinary iron excretion (UIE) in 36 evaluable patients was 21.0 mg/24 h and was significantly higher in the patients with thalassemia than in those with myelodysplasia. Negative iron balance was achieved in 20 patients (56%). The median duration of treatment was 10 months; due to side effects and other causes only 20 patients completed 1 year of treatment. Mean serum ferritin levels decreased from 3563 micrograms/l at the start of the trial to 2767 micrograms/l at 6 months (26 patients, p < 0.004) and to 2186 micrograms/l at 12 months (20 patients, p < 0.005). Serum ferritin levels normalized in two patients who were no longer transfusion dependent. Deferiprone was clearly not effective in three patients (two with myelofibrosis, one with myelodysplasia). One patient with myelodysplasia developed agranulocytosis after 12 months of treatment; this was rapidly reversible after stopping deferiprone. Three patients had a mild and transient decrease in white blood cell count. Other side effects leading to withdrawal from the trial consisted mainly of nausea (3 patients), arthralgia (2), and skin rash (1). No clinical signs of zinc deficiency were seen, although zinc excretion was increased in three patients. No changes were seen in liver enzymes, creatinine, antinuclear factor, T-cell subsets, cardiac function, visual acuity, and audiogram. Although our results confirm deferiprone as an effective iron chelator in patients with thalassemia and in some patients with other forms of iron overload, there is still some concern about the safety of this drug, which therefore, at this time, should be used exclusively in well-controlled clinical trials.
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PMID:Long-term treatment of transfusional iron overload with the oral iron chelator deferiprone (L1): a Dutch multicenter trial. 895 43

Desferrioxamine (DFX) remains the most effective and safe iron chelator for treatment of patients with transfusional iron overload. It is usually given by intermittent subcutaneous infusions for 8-12 h on 4-6 days weekly using a battery-driven pump. Disposable balloon infusers provide a suitable method of giving continuous subcutaneous infusions with improved patient compliance. For patients with cardiac abnormalities due to iron overload, continuous intravenous desferrioxamine is essential to eliminate toxic plasma non-transferrin bound iron and to reduce body iron stores. Deferiprone (L1, l-2 dimethyl-3hydroxy-pyrid-4-one) is a less effective iron chelator but has the advantage of being orally active. Long-term trials in which patients have taken 75 mg/kg/day have shown that deferiprone is capable of maintaining body iron stores at safe levels in a proportion of thalassaemia major patients but body iron stores, assessed by liver biopsy remain at high levels (> 15.0 mg/g dry weight) in a substantial number of patients. These concentrations have been associated with tissue damage. Trials of increased doses of deferiprone (up to 100 mg/kg/day) or of combined therapy with daily deferiprone and DFX or 1 or 2 days each week are being carried out in an attempt to achieve lower body iron burden in these patients. Preliminary results show that the drugs can be given safely together and urine iron excretion produced is additive, implying that the drugs chelate different body iron pools. Patients previously well chelated with serum ferritin levels less than 2500 micrograms/L have the fewest side-effects from deferiprone and usually may be kept at the same level of body iron for periods of at least 4 years, assessed by serum ferritin and urine iron excretion. The side-effects of deferiprone result in some patients discontinuing therapy. These side-effects, especially arthropathy, mainly occur in previously poorly chelated and so the most heavily iron-loaded patients. Nausea and other gastrointestinal symptoms, agranulocytosis or milder degrees of neutropenia account with arthropathy for nearly all the withdrawals from deferiprone therapy. Patients with cardiomyopathy due to iron overload should be given intravenous DFX rather than deferiprone. Deferiprone, licensed for pharmaceutical use in India, awaits official approval for widespread clinical use in Western Europe and North America. Meanwhile, attempts to find new orally active iron chelators and improved methods of administration of desferrioxamine are in progress.
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PMID:Iron chelation therapy. 935 Jan 80

Iron overload caused by lifelong transfusion-dependent anaemias, such as beta-thalassaemia major, usually results in lethal cardiac toxicity in the second decade of life if not treated by iron chelation. There is no physiological mechanism for excreting the excess iron accumulated from blood transfusions and, unlike hereditary haemochromatosis, venesection is not an option. Therefore, chelation therapy is the only way to remove excess iron. This must be removed while not depriving cells of the essential iron needed for normal metabolism. Additionally, the iron chelator must prevent iron from participating in the generation of harmful free radicals. Parenteral chelation therapy with deferoxamine (desferrioxamine) is well established as promoting negative iron balance, reversing cardiac toxicity, and prolonging life expectancy well into the fourth decade of life and, most likely, beyond. Unfortunately, poor compliance with the rigours of parenteral treatment in a minority of patients limits its regular use, resulting in reduced life expectancy in these patients. Use of deferoxamine in excessive dosages may result in growth retardation, sensorineural ototoxicity and ocular toxicity, as well as bone deformities. These effects can be largely avoided if the dosage is adjusted to take account of the degree of iron overload (using the therapeutic index) and if the mean daily dose does not exceed 40 mg/kg. Nevertheless, it is recommended that patients be regularly monitored for such adverse effects. Deferiprone (L1; CP20) is an orally absorbed bidentate hydroxypyridinone iron chelator that can induce urinary iron excretion, promote negative iron balance and reduce hepatic iron levels in some transfusion-dependent patients, particularly in those who are markedly iron overloaded and have not received regular deferoxamine therapy. The long term efficacy and toxicity of deferiprone are the subjects of some controversy, and the published results of randomised controlled trials are awaited. Preliminary results suggest that when currently recommended dosages of deferiprone (75 mg/kg/day) are used, hepatic iron settles at levels that still put most patients at an increased risk from iron overload. A number of adverse effects may occur, and require cessation of therapy in up to 30% of patients. These effects include arthritis, nausea and (most seriously) agranulocytosis in 0.6 to 4% of patients. The risk of the latter complication means that frequent white blood cell counts are mandatory for patients taking this drug. There remains an urgent need to identify an orally active chelator regimen that is as effective as deferoxamine and has an acceptable degree of tolerability.
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PMID:A risk-benefit assessment of iron-chelation therapy. 942 39

Deferiprone, also known as L1, is an orally active iron chelator that has been studied extensively in clinical trials. The sporadic occurrence of agranulocytosis in association with deferiprone and the highly variable frequency of other possible side effects such as arthralgia have created uncertainty about the true incidence of deferiprone-related complications. A multi-center, 1-year trial was initiated to determine the safety profile of deferiprone. Using the Apotex formulation of deferiprone, 187 patients with thalassemia who were unable or unwilling to use deferoxamine were enrolled in four centers; 162 patients completed one year of therapy. Agranulocytosis (ANC < 500/mm3) occurred in one patient after 15 weeks of treatment, was not accompanied by infection and resolved following treatment with G-CSF. Nine other subjects developed less severe neutropenia (ANC 500-1500/mm3) with the lowest absolute neutrophil count reaching 500-1250/mm3. The neutropenia in these patients developed after 1-50 weeks of therapy, frequently accompanied febrile illnesses, and occurred predominantly in non-splenectomized patients. Reasons other than neutropenia for discontinuing use of deferiprone included nausea (4), voluntary withdrawal (3), high ALT (2), platelet count < 100,000/mm3 (2), low but unconfirmed ANC (1), protocol violation (1) fatigue (1), and depression (1). Mean ALT levels rose within three months of therapy and stabilized thereafter. Arthralgia and nausea and/or vomiting occurred in 6% and 24% of subjects, respectively. In this multi-center trial with weekly monitoring of blood counts, the incidence of agranulocytosis was 0.58 per 100 patient-years, and the frequency of agranulocytosis after one year was 0.5%. These findings support the safety of this formulation of deferiprone, using the careful monitoring system employed in this trial.
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PMID:A multi-center safety trial of the oral iron chelator deferiprone. 966 43


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