110 resultados para Thalassemia
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Background:Several studies have evaluated the oxidant and antioxidant status of thalassemia patients but most focused mainly on the severe and intermediate states of the disease. Moreover, the oxidative status has not been evaluated for the different beta-thalassemia mutations.Objective:To evaluate lipid peroxidation and Trolox equivalent antioxidant capacity in relation to serum iron and ferritin in beta thalassemia resulting from two different mutations (CD39 and IVS-I-110) compared to individuals without beta-thalassemia.Methods:One hundred and thirty subjects were studied, including 49 who were heterozygous for beta-thalassemia and 81 controls. Blood samples were subjected to screening tests for hemoglobin. Allele-specific polymerase chain reaction was used to confirm mutations for beta-thalassemia, an analysis of thiobarbituric acid reactive species was used to determine lipid peroxidation, and Trolox equivalent antioxidant capacity evaluations were performed. The heterozygous beta-thalassemia group was also evaluated for serum iron and ferritin status.Results:Thiobarbituric acid reactive species (486.24 ± 119.64 ng/mL) and Trolox equivalent antioxidant capacity values (2.23 ± 0.11 mM/L) were higher in beta-thalassemia heterozygotes compared to controls (260.86 ± 92.40 ng/mL and 2.12 ± 0.10 mM/L, respectively; p-value < 0.01). Increased thiobarbituric acid reactive species values were observed in subjects with the CD39 mutation compared with those with the IVS-I-110 mutation (529.94 ± 115.60 ng/mL and 453.39 ± 121.10 ng/mL, respectively; p-value = 0.04). However, average Trolox equivalent antioxidant capacity values were similar for both mutations (2.20 ± 0.08 mM/L and 2.23 ± 0.12 mM/L, respectively; p-value = 0.39). There was no influence of serum iron and ferritin levels on thiobarbituric acid reactive species and Trolox equivalent antioxidant capacity values.Conclusion:This study shows an increase of oxidative stress and antioxidant capacity in beta-thalassemia heterozygotes, mainly in carriers of the CD39 mutation.
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Human Parvovirus B19 (B19V) is a recognized cause of life-threatening conditions among patients with hemoglobinopathies. This study investigates B19V infection in patients with sickle cell disease and beta-thalassemia using different experimental approaches. A total of 183 individuals (144 with sickle cell disease and 39 with beta-thalassemia major) and 100 healthy blood donors were examined for B19V using anti-B19V IgG enzyme immunoassay, quantitative PCR, DNA sequencing, and phylogenetic analysis. Viremia was documented in 18.6% of patients and 1% of donors, and was generally characterized by low viral load (VL); however, acute infections were also observed. Anti-B19V IgG was detected in 65.9% of patients with sickle cell disease and in 60% of donors, whereas the patients with thalassemia exhibited relatively low seroreactivity. The seroprevalence varied among the different age groups. In patients, it progressively increased with age, whereas in donors it reached a plateau. Based on partial NS1 fragments, all isolates detected were classified as subgenotype 1A with a tendency to elicit genetically complex infections. Interestingly, quasispecies occurred in the plasma of not only patients but also donors with even higher heterogeneity. The partial NS1 sequence examined did not exhibit positive selection. Quantitation of B19V with a conservative probe is a technically and practically useful approach. The extensive spread of B19V subgenotype 1A in patients and donors and its recent introduction into the countryside of the Sao Paulo State, Brazil were demonstrated; however, it is difficult to establish a relationship between viral sequences and the clinical outcomes of the infection. J. Med. Virol. 84:16521665, 2012. (c) 2012 Wiley Periodicals, Inc.
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BACKGROUND AND OBJECTIVES: The aim of this prospective, randomized, 1-year study was to compare the efficacy and safety of oral deferiprone (DFP) with those of combinations of parenteral desferrioxamine (DFO) with oral DFP. DESIGN AND METHODS: A total of 24 patients with thalassemia major were randomized to receive one of the following two treatments; DFP given at a daily dose of 75 mg/kg in combination with DFO (40-50 mg/kg twice weekly) (n=12) or as single agent (n=12). In addition, 12 patients treated with 40-50 mg/kg DFO 5 days weekly were included as a reference group without randomization. Changes in liver iron concentration (LIC) and serum ferritin (SF) were assessed; total iron excretion (TIE), urinary iron excretion (UIE) and iron balance were calculated. Cardiac function and toxicity were also examined. DESIGN AND METHODS: SF and LIC were significantly reduced after 1 year of combination therapy (p=0.01 and 0.07, respectively). A decrease of LIC was observed in all but one patient (87.5%) following the combination therapy but in only 42% of patients treated with DFP monotherapy. In the DFO reference group, a statistically significant decrease in LIC (p=0.01) associated with a substantial decrease in SF (p=0.08) was observed after 1 year. The combination regimen resulted in greater TIE compared to DFP monotherapy (p=0.08) and was the regimen associated with the highest iron balance compared to DFP monotherapy (p=0.04) or standard DFO treatment (p=0.006). INTERPRETATIONS AND CONCLUSIONS: The addition of subcutaneous DFO twice weekly to oral DFP 75 mg/kg is a highly efficacious and safe chelation therapy providing superior chelation activity to that of DFP and likely has an efficacy profile comparable to that of standard DFO.
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In the South West Pacific region, the striking geographical correlation between the frequency of α+-thalassemia and the endemicity of Plasmodium falciparum suggests that this hemoglobinopathy provides a selective advantage against malaria. In Vanuatu, paradoxically, α+-thalassemia increases the incidence of contracting mild malaria in the first 2 years of life, but severe disease was too uncommon to assess adequately. Therefore, we undertook a prospective case-control study of children with severe malaria on the north coast of Papua New Guinea, where malaria transmission is intense and α+-thalassemia affects more than 90% of the population. Compared with normal children, the risk of having severe malaria was 0.40 (95% confidence interval 0.22–0.74) in α+-thalassemia homozygotes and 0.66 (0.37–1.20) in heterozygotes. Unexpectedly, the risk of hospital admission with infections other than malaria also was reduced to a similar degree in homozygous (0.36; 95% confidence interval 0.22–0.60) and heterozygous (0.63; 0.38–1.07) children. This clinical study demonstrates that a malaria resistance gene protects against disease caused by infections other than malaria. The mechanism of the remarkable protective effect of α+-thalassemia against severe childhood disease remains unclear but must encompass the clear interaction between this hemoglobinopathy and both malarial and nonmalarial infections.
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Thalassemia is a heritable human anemia caused by a variety of mutations that affect expression of the α- or the β-chain of hemoglobin. The expressivity of the phenotype is likely to be influenced by unlinked modifying genes. Indeed, by using a mouse model of α-thalassemia, we find that its phenotype is strongly influenced by the genetic background in which the α-thalassemia mutation resides [129sv/ev/129sv/ev (severe) or 129sv/ev/C57BL/6 (mild)]. Linkage mapping indicates that the modifying gene is very tightly linked to the β-globin locus (Lod score = 13.3). Furthermore, the severity of the phenotype correlates with the size of β-chain-containing inclusion bodies that accumulate in red blood cells and likely accelerate their destruction. The β-major globin chains encoded by the two strains differ by three amino acids, one of which is a glycine-to-cysteine substitution at position 13. The Cys-13 should be available for interchain disulfide bridging and consequent aggregation between excess β-chains. This normal polymorphic variation between murine β-globin chains could account for the modifying action of the unlinked β-globin locus. Here, the variation in severity of the phenotype would not depend on a change in the ratio between α- and β-chains but on the chemical nature of the normal β-chain, which is in excess. This work also indicates that modifying genes can be normal variants that—absent an apparent physiologic rationale—may be difficult to identify on the basis of structure alone.
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We have used a "plug and socket" targeting technique to generate a mouse model of beta 0-thalassemia in which both the b1 and b2 adult globin genes have been deleted. Mice homozygous for this deletion (Hbbth-3/Hbbth-3) die perinatally, similar to the most severe form of Cooley anemia in humans. Mice heterozygous for the deletion appear normal, but their hematologic indices show characteristics typical of severe thalassemia, including dramatically decreased hematocrit, hemoglobin, red blood cell counts, mean corpuscular volume, mean corpuscular hemoglobin, and mean corpuscular hemoglobin concentration, as well as dramatically increased reticulocyte counts, serum bilirubin concentrations, and red cell distribution widths. Tissue and organ damage typical of beta-thalassemia, such as bone deformities and splenic enlargement due to increased hematopoiesis, are also seen in the heterozygous animals, as is spontaneous iron overload in the spleen, liver, and kidneys. The mice homozygous for the b1 and b2 deletions should be of great value in developing therapies for the treatment of thalassemias in utero. The heterozygous animals will be useful for studying the pathophysiology of thalassemias and have the potential of generating a model of sickle cell anemia when mated with appropriate transgenic animals.
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beta zero-Thalassemia is an inherited disorder characterized by the absence of beta-globin polypeptides derived from the affected allele. The molecular basis for this deficiency is a mutation of the adult beta-globin structural gene or cis regulatory elements that control beta-globin gene expression. A mouse model of this disease would enable the testing of therapeutic regimens designed to correct the defect. Here we report a 16-kb deletion that includes both adult beta-like globin genes, beta maj and beta min, in mouse embryonic stem cells. Heterozygous animals derived from the targeted cells are severely anemic with dramatically reduced hemoglobin levels, abnormal red cell morphology, splenomegaly, and markedly increased reticulocyte counts. Homozygous animals die in utero; however, heterozygous mice are fertile and transmit the deleted allele to progeny. The anemic phenotype is completely rescued in progeny derived from mating beta zero-thalassemic animals with transgenic mice expressing high levels of human hemoglobin A. The beta zero-thalassemic mice can be used to test genetic therapies for beta zero-thalassemia and can be bred with transgenic mice expressing high levels of human hemoglobin HbS to produce an improved mouse model of sickle cell disease.
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Background: Thalassemia is an inherited blood disease. It is a serious public health problem throughout the Mediterranean region, the Middle East and the Indian subcontinent, as well as in Southeast Asia. Objectives: Thalassemia is an inherited blood disease. It is a serious public health problem. In this study we assessed psychological aspects in Iranian children and adolescents with thalassemia major. Patients and Methods: In this case-control study sixty healthy subjects aged 7-18 years and Sixty Patients with confirmed diagnosis of major thalassemia were enrolled. After obtaining informed consent from parents of all participating thalassemia patients and healthycontrols, we assessed psychological aspects and quality of life by Pediatric Quality of LifeTM (PedsQL™), Strengths and Difficulties Questionnaires (SDQ), State and Trait Anxiety, Children's Depression Inventory (CDI). Results: The results of this study indicate that there are significant changes in depression, anxiety, QOL and behavioral screening between children with thalassemia major compared with healthy subjects by means of both parents and children reports. According to the results, children with thalassemia major have more psychological problems than healthy ones. Patients with thalassemia have a lower QOL than their peers (P = 0.001), the rate of depression is higher in this group (P = 0.015), Also behavioral problems in these children are more than healthy subjects (P = 0.009). Conclusions: We recommend appropriate treatment and counseling procedures in addition to specific treatment of thalassemia. According to the results we suggest to establish pediatric psychiatric clinics beside thalassemic clinics to cure psychological aspects of the disease.
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A doença falciforme é uma síndrome hematológica genética que faz parte das hemoglobinopatias de grande abrangência na população mundial. Estima-se que 4,5% da população apresente algum tipo de hemoglobinopatia, cujos aspectos clínicos oscilam de leve à grave. O principal fator que pode influenciar o fenótipo das doenças falciformes é o genótipo da doença; homozigose para HbS ou genótipos compostos do tipo HbSC, HbS/beta-talassemia, HbSD. Este pode desenvolver distúrbios como dislipidemia, colelitíase e transtornos cardiovasculares que podem causar o óbito. O presente estudo visa correlacionar o perfil lipídico de pacientes portadores de doença falciforme. Foram avaliados 52 pacientes do Serviço de Hematologia Clínica do Hospital Universitário Pedro Ernesto HUPE-UERJ, portadores da doença falciforme confirmada pela técnica de HPLC realizada no Laboratório de Análises Clínicas da Faculdade de Farmácia (LACFAR)-UFRJ. As análises hematológicas compostas pelo hemograma completo e dosagens bioquímicas do perfil lipídico formado pela dosagem de triglicerídeos, colesterol total, colesterol HDL, colesterol LDL e colesterol VLDL. A população estudada é composta por 52 pacientes, sendo 22 pacientes do sexo masculino, representando 42% do total de pacientes e 30 do sexo feminino, definindo 58% do total. E com objetivo comparativo, foi constituído um grupo controle de 52 pessoas com média de idade 26 anos, variando entre 5 e 63 anos. A população de Doença Falciforme apresenta grupos etários que oscilam entre 6 e 60 anos de idade, tendo média de 28 anos. Baseada nas características fenotípicas definidas por HPLC, a classificação de hemoglobina demonstra um grupo de 83% de portadores de Hemoglobina SS (n=43), 13% portadores de Hemoglobina SC (n=7) e 4% com Hemoglobina SB0 (n=2). Em relação às dosagens bioquímicas, a análise do perfil lipídico demonstra hipocolesterolemia, cuja média da população é definida por 122mg/dL quando comparada com o grupo controle (GC) com média de 201mg/dL (p<0,001). A taxa do colesterol-HDL situa-se na média de 29mg/dL e do GC 54 mg/dL (p<0,001) e do colesterol-LDL 69mg/dL enquanto o GC 120mg/dL (p<0,001). A sistematização dos resultados hematológicos define uma média de hematimetria de 2,7. 106/mm3. Na dosagem de hemoglobina obteve-se média de 8,4g/dL. Tais resultados caracterizam que é predominante neste grupo a hipocromia sem expressão de microcitose. Dentre os processos patológicos mais comuns, a litíase biliar se destacou nos pacientes com doença falciforme, onde 25% dos pacientes estudados (n=13) apresentaram este comprometimento hepatobiliar, na qual grande parte desses pacientes foram submetidos à colecistectomia. A doença Falciforme cursa com hiperplasia medular principalmente às custas da hiperproliferação dos precursores eritróides na medula óssea. O estado hiperproliferativo nessa doença possivelmente causa redução do colesterol plasmático para atender à maior demanda deste elemento para síntese de novas membranas. Esta redução na produção endógena de colesterol pode ser entendida pela disfunção hepática que habitualmente está presente em pessoas com doença falciforme. Logo se concluiu que existe uma correlação de hipocolesterolemia total e de HDL-c baixo em pacientes com doença falciforme.
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Excessive iron absorption is one of the main features of β-thalassemia and can lead to severe morbidity and mortality. Serial analyses of β-thalassemic mice indicate that while hemoglobin levels decrease over time, the concentration of iron in the liver, spleen, and kidneys markedly increases. Iron overload is associated with low levels of hepcidin, a peptide that regulates iron metabolism by triggering degradation of ferroportin, an iron-transport protein localized on absorptive enterocytes as well as hepatocytes and macrophages. Patients with β-thalassemia also have low hepcidin levels. These observations led us to hypothesize that more iron is absorbed in β-thalassemia than is required for erythropoiesis and that increasing the concentration of hepcidin in the body of such patients might be therapeutic, limiting iron overload. Here we demonstrate that a moderate increase in expression of hepcidin in β-thalassemic mice limits iron overload, decreases formation of insoluble membrane-bound globins and reactive oxygen species, and improves anemia. Mice with increased hepcidin expression also demonstrated an increase in the lifespan of their red cells, reversal of ineffective erythropoiesis and splenomegaly, and an increase in total hemoglobin levels. These data led us to suggest that therapeutics that could increase hepcidin levels or act as hepcidin agonists might help treat the abnormal iron absorption in individuals with β-thalassemia and related disorders.
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Gliomagenesis is driven by a complex network of genetic alterations and while the glioma genome has been a focus of investigation for many years; critical gaps in our knowledge of this disease remain. The identification of novel molecular biomarkers remains a focus of the greater cancer community as a method to improve the consistency and accuracy of pathological diagnosis. In addition, novel molecular biomarkers are drastically needed for the identification of targets that may ultimately result in novel therapeutics aimed at improving glioma treatment. Through the identification of new biomarkers, laboratories will focus future studies on the molecular mechanisms that underlie glioma development. Here, we report a series of genomic analyses identifying novel molecular biomarkers in multiple histopathological subtypes of glioma and refine the classification of malignant gliomas. We have completed a large scale analysis of the WHO grade II-III astrocytoma exome and report frequent mutations in the chromatin modifier, alpha thalassemia mental retardation x-linked (
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Donor hematopoiesis or donor chimerism in the host following allogeneic bone marrow transplantation (BMT) has appeared crucial to the engraftment process. However, as molecular techniques exploiting neutral variation in human genetic material have been used in the study of chimerism, the detection of residual host cells or mixed hemopoietic chimerism has indicated that donor chimerism is not obligatory following BMT. This review focuses on the detection and significance of mixed chimerism (MC) in patients transplanted for both malignant and non-malignant hemopoietic disease and attempts to tease out the contribution of MC to engraftment, leukemia relapse, graft rejection and long-term disease-free survival.
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Trabalho de projecto de mestrado, Tradução, Universidade de Lisboa, Faculdade de Letras, 2012
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JORNADAS DE ELECTROQUÍMICA E INOVAÇÃO 2013
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L’hémoglobine est une protéine contenue dans les globules rouges dont la principale fonction est le transport de l’oxygène. Chaque molécule d’hémoglobine est un tétramère constitué de deux paires de globines identiques de type α et β. La β-thalassémie est une maladie génétique hématopoïétique provenant de mutations du gène encodant l'hémoglobine. Ce désordre se caractérise par une diminution ou une absence totale de la synthèse de la chaîne β-globine résultant principalement en une anémie hémolytique sévère ainsi que des complications multisystémiques, telles que la splénomégalie, des déformations osseuses et une dysfonction hépatique et rénale. Actuellement, les transfusions sanguines chroniques représentent le traitement standard des patients β-thalassémiques. Cette thérapie nécessite l’administration conjointe d’un traitement chélateur de fer puisqu’elle entraîne une accumulation pathologique du fer, considéré à ce jour comme la source principale des complications cardiovasculaires de la β-thalassémie. Néanmoins, malgré le traitement efficace de la surcharge de fer transfusionnelle, l’insuffisance cardiaque demeure encore la principale cause de mortalité chez les patients atteints de β-thalassémie. Cette observation indique possiblement la présence d’un mécanisme complémentaire dans le développement de la physiopathologie cardiaque β-thalassémique. L’objectif du présent projet consistait donc à étudier les altérations cardiovasculaires de la β-thalassémie indépendamment de la surcharge de fer transfusionnelle. En utilisant un modèle murin non-transfusé de la β-thalassémie majeure, nous avons d’abord évalué in vivo, par méthode d’imagerie novatrice échographique à haute fréquence, les propriétés hémodynamiques vasculaires. Nos résultats d’index de Pourcelot ainsi que de résistance vasculaire périphérique totale ont démontré une perturbation de l’écoulement microcirculatoire chez les souris β-thalassémiques non-transfusées. Subséquemment, nous avons étudié la fonction endothéliale de régulation du tonus vasculaire de vaisseaux mésentériques isolés. Nos résultats ont révélé un dysfonctionnement de la réponse vasodilatatrice dépendante de l’endothélium chez les souris β-thalassémiques malgré une augmentation de l’expression de l’enzyme de synthèse du monoxyde d’azote ainsi qu’un remodelage de la carotide commune caractérisé par un épaississement de la paroi vasculaire. Finalement, notre étude échocardiographique de la fonction et la morphologie cardiaque a montré, chez les souris β-thalassémiques, le développement d’une hypertrophie et une dysfonction ventriculaire gauche en l’absence de transfusions sanguines chroniques ou de dépôts directs de fer dans le myocarde. L’ensemble des résultats présentés dans le cadre de cette thèse indique la présence d’une pathologie cardiovasculaire chez les souris β-thalassémiques non-transfusés. Nos travaux permettent de proposer un mécanisme de la pathophysiologie cardiovasculaire β-thalassémique, indépendant de la charge de fer transfusionnelle, impliquant les effets compensatoires d’une anémie chronique combinés à une vasculopathie complexe initiée par les érythrocytes endommagés et l’hémolyse intravasculaire.
