UMLS:C0039730 - FACTA Search

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

Desferrioxamine (DFX) is an iron chelation agent widely used in the treatment of transfusional iron overload in patients with thalassaemia major and other severe refractory anaemias. DFX has been shown to induce inhibition of DNA synthesis and apoptosis in vitro; however, the molecular targets of DFX action are not well known. The c-myc proto-oncogene is involved in a number of cellular processes including proliferation, differentiation and apoptotic cell death. We have examined the expression of c-myc in peripheral blood mononuclear cells from 71 patients with homozygous beta-thalassaemia in regular transfusion and iron chelation therapy with DFX, 5 non-transfusion, non-chelation-dependent thalassaemic patients, and 15 healthy volunteers using an APAAP immunocytochemical method. We have found that mononuclear cells from thalassaemic patients receiving DFX express significantly lower levels of c-myc protein compared to control healthy volunteers or thalassaemics receiving no DFX. In vitro treatment of HL60 or K562 leukaemic cells with 100 microliters DFX also induced a rapid decrease in c-myc mRNA and protein levels, followed by apoptosis and inhibition of DNA synthesis. These effects were blocked by simultaneous addition of ferric chloride. Our data suggest that deprivation of cellular iron induces downregulation of c-myc expression in vitro and in vivo and may influence haemopoietic cell growth and survival.
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PMID:Decreased expression of c-myc oncoprotein by peripheral blood mononuclear cells in thalassaemia patients receiving desferrioxamine. 945 24

In thalassemia, iron overload is the joint outcome of excessive iron absorption and transfusional siderosis. While iron absorption is limited by a physiologic ceiling of about 3 mg/d, plasma iron turnover in thalassemia may be 10 to 15 times normal, caused by the wasteful, ineffective erythropoiesis of an enormously expanded erythroid marrow. This outpouring of catabolic iron exceeds the iron-binding capacity of transferrin and appears in plasma as non-transferrin-plasma iron (NTPI). The toxicity of NTPI is much higher than of transferrin-iron as judged by its ability to promote hydroxyl radical formation resulting in peroxidative damage to membrane lipids and proteins. In the heart, this results in impaired function of the mitochrondrial respiratory chain and abnormal energy metabolism manifested clinically in fatal hemosiderotic cardiomyopathy. Ascorbate increases the efficacy of iron chelators by expanding the intracellular chelatable iron pool, but, at suboptimal concentrations is a pro-oxidant, enhancing the catalytic effect of iron in free radical formation. NTPI is removed by i.v. DFO in a biphasic manner and reappears rapidly upon cessation of DFO, lending support to the continuous, rather than intermittent, use of chelators. Unlike DFO and other hexadentate chelators, bidentate chelators such as L1 may produce incomplete intermediate iron complexes at suboptimal drug concentrations.
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PMID:Pathophysiology of iron overload. 966 40

The use of the iron chelator, Deferoxamine (DFO), in pregnant thalassemia women with iron overload has been generally avoided due to fear of its potential teratogenicity. We describe a case of a pregnant thalassemia major patient with iron overload, who received DFO throughout her second and third trimesters and gave birth to a healthy infant, who had no findings of DFO toxicity at birth and at a later follow-up. Review of the literature discloses over 40 other cases in which DFO was given in various periods of gestation without evidence of teratogenic effect. Sufficient documentation exists, therefore, to suggest that DFO can be considered for use in cases of pregnant women who need iron chelation treatment.
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PMID:Deferoxamine treatment during pregnancy: is it harmful? 988 2

Pregnancy in beta-thalassemic patients has become a not unusual event, especially in the last 10 years. The course and outcome of 19 pregnancies in 16 thalassemic women, followed in our unit, 12 with thalassemia major and 4 with thalassemia intermedia, were studied. Genetic counselling was provided and counselling regarding the planning or the continuation of the pregnancy was based mainly on cardiac performance at rest. Cardiac, endocrine and liver function were evaluated at baseline, monitored throughout pregnancy and reevaluated after delivery. Desferrioxamine treatment was discontinued as early as possible. During pregnancy the Hb level was maintained at about 10 g/dl in all women by transfusion. The course of pregnancy was essentially uneventful and elective Cesarean section was performed in all cases. The mean birth weight of the newborns was 3000 g. All babies were normal except for one with exomphalus. Pregnancy was well tolerated by the heart in all women and no endocrinological disorders were observed. In conclusion, pregnancies in beta-thalassemia can be safe for both mothers and their babies with careful selection and appropriate care.
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PMID:Fertility in thalassemia: the Greek experience. 1009 Nov 69

Thalassaemia is a group of genetic diseases where haemoglobin synthesis is impaired. This chronic anaemia leads to increased dietary iron absorption, which develops into iron overload pathology. Treatment through regular transfusions increases oxygen capacity but also provides iron through the red cells' haemoglobin. An essential treatment, in parallel with transfusions, is the use of chelating agents to remove the excess iron deposited in tissues. These deposits are found in the liver, spleen, heart, and pancreas and are associated with cardiac failure and diabetes. The deposits in these tissues of patients have been isolated as haemosiderin. Thalassaemia patients are particularly at risk of free radical induced damage. Thus, the present study has investigated, as a model system, human cells in vitro in the Comet assay in the presence of free radicals. This assay measures DNA damage, particularly DNA strand breakage. The effects of iron overload on cells oxidatively stressed with hydrogen peroxide (H(2)O(2)) have been determined as well as the effect of the chelating agent, deferoxamine. Iron overload was simulated with ferric (FeCl(3)) and ferrous chloride (FeCl(2)), ferrous sulphate (FeSO(4)) and haemosiderins. Both human lymphocytes from a male and a female donor and human adenocarcinoma colonic cells showed an increase in DNA damage in the Comet assay after treatment with H(2)O(2). Ferric chloride produced an increase in DNA damage in human colonic cells, but little or no damage in human lymphocytes. Ferrous chloride also produced weak DNA damage in human lymphocytes, but ferrous sulphate produced a dose-related response. Deferoxamine produced no DNA damage. When H(2)O(2) was combined with FeCl(3), FeCl(2), or FeSO(4), the DNA damage produced was as least as great as or slightly greater than with H(2)O(2) alone. When deferoxamine was combined with H(2)O(2) and FeSO(4) there was a consistent decrease in response. There was little or no decrease in response when deferoxamine was combined with H(2)O(2) and FeCl(3) or FeCl(2), but at high (100-300microm) doses there were changes in the appearance of cellular DNA from Comet tails to dense centres surrounded by a diffuse area. This was probably as a consequence of chelation processes. Haemosiderin produced no damage. The three fractions of haemosiderin examined were of three different densities and from a Thai patient where the oxyhydroxide phase is the ferrihydrite. The colour change was similar to that for FeCl(3), but the level of the ferric ion in the haemosiderin was possibly too low in the sample to produce a response. The next stage is to examine peripheral lymphocytes from thalassaemic patients, with and without chelation therapy, whose cells may be more sensitive to simulated iron overload and to lower levels of haemosiderin. Teratogenesis Carcinog. Mutagen. 20:11-26, 2000.
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PMID:Effects of iron salts and haemosiderin from a thalassaemia patient on oxygen radical damage as measured in the comet assay. 1060 74

Impairment of haemoglobin synthesis occurs in the genetic diseases known as thalassaemia. The consequent chronic anaemia leads to increased dietary iron absorption which results in iron overload. Treatment through regular blood transfusions increases oxygen capacity, but also adds iron from haemoglobin. An essential treatment, in parallel with transfusions, is the use of chelating agents to remove the excess iron. Thalassaemia patients are particularly at risk of free radical damage. Human lymphocytes from normal individuals can be investigated in vitro as a model system in the presence of free radicals in the Comet assay. This assay measures DNA damage, particularly DNA strand breakage. We examined cells from an Australian thalassaemic patient (sickle/beta thal double heterozygote-sickle phenotype) who had not yet received chelation therapy to determine if the cells were more sensitive to simulated iron overload and to haemosiderins. Lymphocytes from the patient were received as frozen samples after 28 h on dry ice and then placed in liquid nitrogen. Normal lymphocytes frozen under the same conditions and normal nonfrozen lymphocytes were compared. The lymphocytes from a normal female did not respond in vitro to ferric chloride (FeCl(3)) or haemosiderin but did to ferrous chloride (FeCl(2)) and ferrous sulphate (FeSO(4)). Deferoxamine appeared to reduce the response to FeCl(2) and FeSO(4) but deferiprone did not. When the lymphocytes from the nonchelated patient were treated with FeSO(4) and hydrogen peroxide, deferoxamine and deferiprone both reduced the response. Over the same dose range of iron salt (FeSO(4)), the lymphocytes from the thalassaemic patient were more sensitive, with much higher background levels of damage and induced damage. When deferiprone and deferoxamine were compared over a nontoxic range, deferiprone appeared to produce a greater reduction of damage in lymphocytes of the thalassaemia patient. Ferritin iron appears to be more available than haemosiderin iron in reactions leading to DNA damage. Haemosiderin containing higher amounts of the goethite-like (alpha-FeOOH) iron oxide phase leads to lower levels of DNA damage.
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PMID:Effect of iron salts, haemosiderins, and chelating agents on the lymphocytes of a thalassaemia patient without chelation therapy as measured in the comet assay. 1099 72

Iron chelating agents are essential for treating iron overload in diseases such as beta-thalassemia and are potentially useful for therapy in non-iron overload conditions, including free radical mediated tissue injury. Deferoxamine (DFO), the only drug available for iron chelation therapy, has a number of disadvantages (e.g., lack of intestinal absorption and high cost). The tridentate chelator pyridoxal isonicotinoyl hydrazone (PIH) has high iron chelation efficacy in vitro and in vivo with high selectivity and affinity for iron. It is relatively non-toxic, economical to synthesize and orally effective. We previously demonstrated that submillimolar levels of PIH and some of its analogues inhibit lipid peroxidation, ascorbate oxidation, 2-deoxyribose degradation, plasmid DNA strand breaks and 5,5-dimethylpyrroline-N-oxide (DMPO) hydroxylation mediated by either Fe(II) plus H(2)O(2) or Fe(III)-EDTA plus ascorbate. To further characterize the mechanism of PIH action, we studied the effects of PIH and some of its analogues on the degradation of 2-deoxyribose induced by Fe(III)-EDTA plus ascorbate. Compared with hydroxyl radical scavengers (DMSO, salicylate and mannitol), PIH was about two orders of magnitude more active in protecting 2-deoxyribose from degradation, which was comparable with some of its analogues and DFO. Competition experiments using two different concentrations of 2-deoxyribose (15 vs. 1.5 mM) revealed that hydroxyl radical scavengers (at 20 or 60 mM) were significantly less effective in preventing degradation of 2-deoxyribose at 15 mM than 2-deoxyribose at 1.5 mM. In contrast, 400 microM PIH was equally effective in preventing degradation of both 15 mM and 1.5 mM 2-deoxyribose. At a fixed Fe(III) concentration, increasing the concentration of ligands (either EDTA or NTA) caused a significant reduction in the protective effect of PIH towards 2-deoxyribose degradation. We also observed that PIH and DFO prevent 2-deoxyribose degradation induced by hypoxanthine, xanthine oxidase and Fe(III)-EDTA. The efficacy of PIH or DFO was inversely related to the EDTA concentration. Taken together, these results indicate that PIH (and its analogues) works by a mechanism different than the hydroxyl radical scavengers. It is likely that PIH removes Fe(III) from the chelates (either Fe(III)-EDTA or Fe(III)-NTA) and forms a Fe(III)-PIH(2) complex that does not catalyze oxyradical formation.
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PMID:The iron chelator pyridoxal isonicotinoyl hydrazone (PIH) and its analogues prevent damage to 2-deoxyribose mediated by ferric iron plus ascorbate. 1104 79

The effectiveness of deferiprone (L1) and the influence of other factors were determined in a clinical setting. Patients of Southern Italian origin, affected by beta-thalassaemia major (n = 13: 7 M, 6 F), aged 10-28 years (median 18 years), were treated with L1 within a 'Controlled Programme' of the Italian Ministry of Health. Desferrioxamine could not be administered in these patients because of anaphylactic reactions or other serious side effects. L1 was considered to be effective when the liver iron concentration was reduced or stable as measured by biomagnetic liver susceptometry. L1 proved to be effective in 3 out the 9 evaluable patients. A high pre-L1 iron overload was the main clinical factor influencing L1 effectiveness.
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PMID:Factors influencing effectiveness of deferiprone in a thalassaemia major clinical setting. 1115 82

We designed a study to obtain follow-up on behavioral aspects of compliance with home deferoxamine administration, explore social factors that might influence compliance, and evaluate the effectiveness of a pilot intervention program for patients with thalassemia or sickle cell disease who were receiving chronic transfusion therapy. Thirty-one patients between the ages of 6 and 21 years and their primary caregivers were administered a 24-hour recall Interview about home care. Fifteen went on to participate in a Desferal Day Camp, which combined educational strategies with peer support. Behavioral measures of treatment adherence were similar for most patients with sickle cell disease and thalassemia. Patient compliance with days of deferoxamine administration at follow-up was associated with initial compliance, perceived support, and patient and caregiver knowledge. Increased sharing of responsibilities for home care by patients and caregivers and caregiver knowledge were associated with lower ferritin and liver iron levels. A subsample of 3 patients who were extremely noncompliant with days of deferoxamine administration was examined separately; these patients were found to be moderately compliant with the number of hours and amount of deferoxamine administered and to share fewer home care tasks with primary caregivers. Participation in Desferal Day Camp did not result in increases in knowledge or peer support, suggesting that future interventions should focus on family support and on improving self-regulatory skills. The crucial role of collaboration among patients, families, and health care providers in developing interventions to enhance adherence was emphasized.
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PMID:Improving adherence with deferoxamine regimens for patients receiving chronic transfusion therapy. 1120 66

Patients who are homozygous for thalassemia major are at risk for Yersinia enterocolitica infections. We present a case of a 4-year-old child with intussusception of the terminal ileum whose past medical history was significant for beta-thalassemia. His monthly blood transfusions for this condition may have put him at risk for Y enterocolitica enterocolitis. The pathogenesis of this disease relates to the role of iron as an essential growth factor for Yersinia, and this patient's transfusions left him in an iron-overloaded state, despite treatment with Desferal. Our patient's unusual presentation of intussusception was secondary to the mass effect caused by lymphoid hyperplasia, specifically hypertrophied Peyer's patches in the ileum caused by Y enterocolitica infection. To our knowledge, this is the first such case of intussusception caused by Yersinia to be reported.
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PMID:Intussusception due to Yersinia enterocolitica enterocolitis in a patient with beta-thalassemia. 1169 9

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