997 resultados para Alpha thalassemia
Resumo:
Nas talassemias alfa, a HbH pode ser detectada, nos eritrócitos do sangue periférico como inclusões celulares quando coradas com azul crezil brillante. Este teste simples é útil para o diagnóstico de talassemia alfa, no entanto, a identificação dos corpos de inclusão de HbH é um processo laborioso e os resultados são altamente dependentes do observador. No intuito de melhorar a identificação das inclusões, foi testado um método alternativo para espalhar as amostras nas lâminas. Amostras de sangue foram espalhadas nas lâminas usando-se o método clássico e o método alternativo. O método alternativo permitiu uma melhor identificação das inclusões de HbH do que o método clássico. Nossos resultados mostraram que o método alternativo é uma opção útil para a pesquisa dos corpúsculos de inclusão de HbH naquelas amostras onde o método clássico não o permite.
Resumo:
Most cases of {alpha}-thalassemia result from large deletions at the {alpha}-globin locus (1). The {alpha}-globin gene cluster contains a tandem array of 2 nearly identical {alpha}-globin genes (HBA; Fig. 1A ) (2). The {alpha}0-thalassemias are characterized by deletions that inactivate both {alpha}-globin genes of a given chromosome, whereas in {alpha}+-thalassemias, one gene remains functional. The most widespread {alpha}+-thalassemias are those designated –{alpha}3.7 and –{alpha}4.2, according to the lengths of the deleted fragments (3).
Resumo:
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 (
Resumo:
Alpha thalassemia, the most common monogenic disorder in the world, is characterized by deletions of one (+-thalassemia) or both alpha genes (0-thalassemia) located on human chromosome 16 (16p13.3). The most common case of +-thalassemia is a deletion of 3.7 kb of DNA (-3.7 deletion). It is most prevalent in African and Middle East regions. In the few studies carried out in Brazilian population -3.7 deletion was the most common deletion, mainly in African descendants. This study was conducted to determine the prevalence of +- thalassemia (deletion 3.7kb) in adult population from Rio Grande do Norte. We obtained blood samples from 713 unrelated individuals of both genders, aged between 18 and 59 years old. All individuals were born in Rio Grande do Norte. The hematological indices were obtained in an automatic cell counter (Micros 60, ABX Diagnostics). The hemoglobin measurement (A2 and Fetal hemoglobin) and the profile confirmation were carried out by high performance liquid chromatography (HPLC) methodology. Genomic DNA was obtained from peripheral blood leukocytes using Illustra Blood GenomicPrep Mini Spin kit and -3.7 deletion was investigated by PCR. Among the 713 individuals studied, 80 (11,2%) presented +- thalassemia: 79 (11,1%) were heterozygous and 1 (0,1%) homozygous for the -3.7 deletion. Considering the ethnic group, negroes showed the greatest prevalence of +-thalassemia (12,5%), followed by mulattoes (12,3%) and caucasian (9,6%). Statistical comparison of hematological parameters between normal individuals and heterozygous to +-thalassemia showed significant differences in RBC (p<0,001), MCV (p<0,001), MCH (p<0,001), Hb A2 (p=0,007) as well as female hemoglobin concentration (p=0,003). This is one of the first studies to research +-thalassemia in general population of Rio Grande do Norte state and these results attest the importance of investigation of this condition to define the etiology of microcytosis and hypochromia.
Resumo:
The neonatal period is considered the most effective for the screening of hemoglobinopathies. This allows prophylaxis and prevention, improving the patient's survival and guidance of parents and heterozygote carriers. The present work aims at the early detection of abnormal hemoglobins, the establishment of standard analysis and to examine the viability of the prevention program. Blood samples were collected by heel stick and from blood cord of children born in the Hospital de Base São José do Rio Preto, from April 1998 to November 1999. Electrophoresis and cytological, biochemical, cromatographic analyses were made for abnormal hemoglobin characterization. A total of 1,478 neonatal blood samples were analyzed in which 14.62% presented with hemoglobins alterations: 3.32% had Hb S; 0.61% had Hb C; 7.44% were suggestive of alpha thalassemia; 1.55% were suggestive of beta thalassemia, and 1.70% had alpha/beta thalassemia interactions. The samples collected from the blood cord showed better results in all analyses while the blood samples collected by heel stick on filter paper, were applicable to only specific methodologies. The routine laboratory methods allowed identification of the thalassemic and variant forms, and isoelectric focusing presented sensitivity only for variant identification in this age range. The suspected cases were reassessed after six months, which permitted genetic counseling of their family members and clinic attendance. A multidisciplinary approach in programs of this kind is fundamental for its success.
Resumo:
A talassemia alfa é uma anemia hereditária resultante da síntese deficiente de cadeias alfa, provocando um excesso relativo de cadeias beta, que vão formar tetrâmeros identificados como hemoglobina H (Hb H) no indivíduo adulto. Para direcionar o diagnóstico laboratorial desta anemia, a análise dos índices eritrocitários, a eletroforese em acetato de celulose em pH neutro e a pesquisa de corpos de inclusão de Hb H são essenciais. O objetivo deste estudo foi traçar o perfil hematológico, por meio dos índices eritrocitários, dos portadores de talassemia alfa das regiões Sudeste e Nordeste do Brasil. Foram analisadas 1.010 amostras de sangue periférico após consentimento informado. Os índices eritrocitários como contagem de glóbulos vermelhos (RBC), dosagem de hemoglobina (HGB), hematócrito (HCT), volume corpuscular médio (VCM), hemoglobina corpuscular média (HCM) e concentração de hemoglobina corpuscular média (CHCM) foram fornecidos por aparelhos automatizados com controle de qualidade interno e externo. Para o diagnóstico de talassemia alfa foram utilizados testes de triagem e complementares para talassemias, como eletroforese em pH neutro e pesquisa de corpos de inclusão de Hb H com coloração de azul cresil brilhante. Comparando-se os valores hematológicos observados nos dois grupos, notou-se que, em ambas as regiões, os índices com valores discrepantes foram os níveis de HGB e HCT, sendo a maior freqüência de variação observada entre as mulheres. Nos portadores do fenótipo alfa talassêmico da região Nordeste, todos os índices eritrocitários estavam abaixo dos valores de normalidade. Estes resultados evidenciam a necessidade de melhor avaliação do perfil hematológico de talassemia alfa em diferentes regiões, considerando-se os interferentes ambientais para um diagnóstico mais preciso.
Resumo:
A hemoglobina fetal - Hb F, formada por duas cadeias gama e duas cadeias alfa, é característica do período fetal do desenvolvimento, tendo sua síntese diminuída no período pós-natal. em algumas alterações hereditárias, a Hb F permanece aumentada, como nas delta-beta talassemia, beta talassemia e persistência hereditária de Hb F (PHHF). A síntese da globina gama também pode ser estimulada por fatores externos como leucemias, transplantes de medula óssea, induções químicas, dentre outros. Através da observação de Hb F aumentada em doadores de sangue por procedimentos eletroforéticos objetivou-se avaliar a quantidade de Hb F em amostras de sangue de candidatos à doação, visando estabelecer seus limites de normalidade na população de São José do Rio Preto e região, por meio de desnaturação alcalina e cromatografia líquida de alta pressão (HPLC), comparar as metodologias aplicadas e, nos indivíduos com Hb F aumentada, realizar estudos moleculares para identificar as mutações que alteram a expressão dos genes gama. Foram analisadas 208 amostras de sangue, sendo 119 de candidatos à doação e 89 de indivíduos sem sintomas de anemia ou achados hematológicos e com Hb F aumentada como grupo comparativo. Das 119 amostras de candidatos à doação, 110 foram utilizadas para traçar o perfil de normalidade de Hb F, comparando-se as metodologias de desnaturação alcalina e HPLC, onde se obteve a média de 1,48% e de 0,6%, respectivamente. A análise estatística por regressão linear mostrou diferença significativa na comparação entre as duas metodologias aplicadas, sendo a HPLC mais precisa para a quantificação de Hb F. Foram observados nos testes de rastreamento de hemoglobinas anormais nestas 110 amostras de sangue: 16,4% de alfa talassemia, 0,9% com Hb F aumentada, 0,9% com beta talassemia e 0,9% com hemoglobina variante de cadeia delta. Os outros nove doadores de sangue apresentaram Hb F acima de 10% em eletroforese e observou-se média de 32,28% para desnaturação alcalina e de 26,4% para HPLC. As análises moleculares por PCR-ASO foram realizadas na tentativa de se identificar um defeito genético que pudesse explicar o aumento de Hb F, pelo rastreamento de 16 mutações que originam talassemias do tipo beta. Encontraram-se 5,3% de heterozigotos para mutação CD6-A e 1,75% para as mutações CD 39, IVS1:6, -87 e IVS2:654, todas em heterozigose. Os resultados encontrados neste estudo evidenciam a necessidade de melhor caracterização dos perfis de hemoglobina obtidos pelos métodos clássicos e a importância de sua caracterização molecular.
Resumo:
A doença falciforme é um termo genérico usado para determinar um grupo de alterações genéticas caracterizadas pelo predomínio de hemoglobina (Hb) S. Os principais genótipos que compõem o grupo de doença falciforme são os seguintes: SS, SF [S/beta0 talassemia e S/persistência hereditária de Hb fetal (PHHF)], SFA (S/beta+ talassemia), SC, SD e SH (S/alfa talassemia). O presente trabalho analisa os resultados das avaliações de produtos provenientes da oxidação da Hb S, identificados pela concentração da metemoglobina e de eritrócitos com corpos de Heinz em dois genótipos da doença falciforme (SS e S/beta0 talassemia) e no traço falcêmico (AS), em comparação com o genótipo normal (AA). A análise dos produtos da degradação oxidativa da hemoglobina, evidenciados pelo aumento dos valores das médias referentes à concentração de metemoglobina e do número de eritrócitos com corpos de Heinz, está diretamente relacionada com o aumento da concentração da Hb S. Assim, a degradação oxidativa da hemoglobina decresce entre os genótipos estudados da seguinte forma: SS>SF>AS>AA. É importante destacar que as análises indicaram que a simples presença de Hb S no eritrócito, como é o caso do genótipo AS, é capaz de causar elevação da concentração de metemoglobina em 52,62% das amostras analisadas e de induzir a precipitação de corpos de Heinz em 73,68% dos casos estudados. Explicações referentes aos processos oxidativos e redutores das hemoglobinas estudadas são apresentados no texto. Destaca-se, entre os resultados apresentados, a identificação por meio de eletroforese em agarose alcalina da fração de globina alfa-livre em todas as amostras do genótipo SF provenientes de pessoas com Hb S/beta0 talassemia. É proposto um esquema para explicar a origem da globina alfa-livre, especialmente para o genótipo S/beta0 talassemia, e a importância da sua identificação no diagnóstico laboratorial de Hb S/beta0 talassemia.
Resumo:
Our objective was to determine how the distribution of red blood cell diseases is related to malaria occurrence in north Brazil, a region endemic for malaria. We evaluated the incidence of two mutations in the HFE gene, H63D and C282Y, in two study groups: a control blood donor group, with no indication of malaria infection, and a group constituted of malaria patients of four states of the Amazonian region. The hemoglobin polymorphisms were obtained by HPLC and classical laboratory methodologies, and the two mutations in the HFE gene were assayed by PCR-RFLP. We found a high frequency of alpha thalassemia, but there were no significant differences between blood donors and malaria patients. There were also no significant differences in the frequencies of HbA(2); however, the frequency of HbF was significantly different in individuals with malaria from Para and Rondonia. The mean number of reticulocytes was significantly reduced in the blood donors from the northern region, suggesting an adaptive strategy of these populations to parasitic attack by Plasmodium. Most individuals were heterozygous for the H63D allele of the HFE gene in both study groups. In the blood donors group, the greatest frequency of the H63D allele was found in Caucasians of all the states. In the malaria patients group in Rondonia, there was a high frequency of the H63D allele among the non-Caucasians. In the other states, and in the malaria patients group, the H63D allele was the most frequent among the Caucasians. Based on our results, we suggest that the maintenance of polymorphism of the mutations in the gene HFE can be explained by selective factors other than malaria, or it is due to simple allelic oscillation and by the constant gene flow among the populations in Brazil.
Resumo:
Sickle Cell disease is a generic term for a group of genetic disorders characterized by the predominance of hemoglobin S. These disorders include Sickle Cell anemia, the Sickle Cell beta Thalassemia syndromes and Hemoglobinopathies in which hemoglobin S is in association with another abnormal hemoglobin, such as hemoglobin S/C. The Sickle Cell trait (hemoglobin AS) associated with Alpha Thalassemia presents alterations in the red blood cells morphology, usually absent in the heterozygous for this hemoglobin variant. The interaction between hemoglobin Sand alpha Thalassemia has been described as one of the factors responsible for the improvement in the clinical picture of homozygous of hemoglobin S (Sickle Cell Anemia), decreasing the number of episodes of pain. The genetic mechanisms of this influence are evaluated using molecular analyses of the human globin genes. With the objective of verifying the presence of alpha Thalassemia in heterozygous of hemoglobin S, with anemia, sent to the Laboratory of Hemoglobins, Department of Biology, UNESP, São José do Rio Preto, SP, we analyzed 1002 blood samples with Sickle Cell trait, in the period from 1990 to 1998. The samples were picked with EDTA 5% as anticoagulant, after previous authorization of the carriers. Appropriated counseling and management requires definitive diagnosis. For the laboratorial diagnosis the blood samples were submitted to electrophoretic procedures in alkaline and acid pH and cytological evaluation of hemoglobin H. The electrophoretic procedures confirmed the presence of hemoglobin AS. The cytological evaluation evidenced the presence of alpha Thalassemia. Of this total analyzed, 16(1,59%) blood samples presented the association between hemoglobin AS and alpha Thalassemia and two individuals belonged of the same family. Our results addressed us to suggest to the routine laboratories, that is important to accomplish the research of alpha Thalassemia among the Sickle Cell trait, with anemia, to verify the interaction with alpha Thalassemia, supplying to the carriers a important information on its hematological profile, genetic pattern of hemoglobinopathies and the appropriated counseling. Rev.bras.hematol.hemoter.,2000,22(3):388-394.
Resumo:
The human hemoglobins, with genetically defined inheritance patterns, have shown characteristic polymorphic variation within the Brazilian population, depending on the racial groups of each region. They have appeared under the form of hemoglobin variants or thalassemias, the variant types S and C and the alpha and beta thalassemias being more common, all of them in heterozygote form. During the year of 1999, blood samples from 506 individuals, with suspected anemia or that had already passed through hemoglobinopathies screening, were sent to the Hemoglobin Reference Center - UNESP for diagnostic confirmation and submitted to electrophoresis proceedings, biochemical and cytological analyses in order to characterize the type of abnormal hemoglobins. The goal of the present study was to verify which abnormal hemoglobin types show greater diagnostic difficulty. The samples came from 24 cities in twelve states. The results showed that 354 (69.96%) individuals presented abnormal hemoglobins, 30 (5.93%) being Hb AS, 5 (0.98%) being Hb AC, 76 (15.02%) suggestive of heterozygote alpha thalassemia, 134 (26.48%) suggestive of heterozygote beta thalassemia and 109 (21.54%) with other forms of abnormal hemoglobin, including rare variants and different forms of thalassemias and variant hemoglobin interactions. It has been concluded that, despite the improved techniques currently available and a constant influx of capacitated personnel, the heterozygote form of thalassemias (210 individuals -41.50%) is challenging to diagnose, followed in difficulty by rare variant characterization and interactive forms of hemoglobinopathies (109 individuals-21,54%), suggesting that the capacity for production of qualified professionals and information about these genetic changes in our population should be increased.
Resumo:
The Brazilian population, presents genes for abnormal hemoglobins with variable frequencies, which are influenced by the founding racial groups. Thus, the detection of carriers of the genetic alterations is important for public health, since they represent sources of new beterozygotes and possible homozygotes. The control of the hemoglobin pathologies has been possible by means of genetic counseling and early diagnosis. The clinical follow-up of the homozygotes and the orientation of the beterozygotes and especially the couples at risk represent a more effective mode of acting to avoid the birth of children who are carriers of a genetic disease, that is frequently lethal. For these reasons this work had as its objectives: to evaluate the importance of testing in pregnant women for the detection of hemoglobin pathologies with the purpose of investigating the prevalence, attaining prevention, a familial study and awareness; for the positive cases such as couples at risk, orient as to appropriate medical attendance; and to evaluate the response to the program. Of the total of 696 pregnant women analysed, 10.7% revealed hemoglobin pathologies with the following rates: alpha Thalassemia 6.75%; Hb AS 2.01%; beta minor Thalassemia 1.29%; Hb AC 0.28%; Hb AJ 0.14%; Hb AS/Alpha Thalassemia 0.14% and P.H.H.F. 0.14%. The high rates of hemoglobin pathologies encountered in the population of pregnant women studied shows the necessity of the implantation of tests for these abnormalities in the pre-natal routine, since in this period the mothers are more apt to be preoccupied with their own health and that of their babies and, however earlier diagnosed the alterations in the hemoglobins, better and more adequate will be the orientations given the couple.
Resumo:
Hereditary hemochromatosis is a disorder of iron metabolism characterized by increased iron intake and progressive storage and is related to mutations in the HFE gene. Interactions between thalassemia and hemochromatosis may further increase iron overload. The ethnic background of the Brazilian population is heterogeneous and studies analyzing the simultaneous presence of HFE and thalassemia-related mutations have not been carried out. The aim of this study was to evaluate the prevalence of the H63D, S65C and C282Y mutations in the HFE gene among 102 individuals with alpha-thalassemia and 168 beta-thalassemia heterozygotes and to compare them with 173 control individuals without hemoglobinopathies. The allelic frequencies found in these three groups were 0.98, 2.38, and 0.29% for the C282Y mutation, 13.72, 13.70, and 9.54% for the H63D mutation, and 0, 0.60, and 0.87% for the S65C mutation, respectively. The chi-square test for multiple independent individuals indicated a significant difference among groups for the C282Y mutation, which was shown to be significant between the beta-thalassemia heterozygote and the control group by the Fisher exact test (P value = 0.009). The higher frequency of inheritance of the C282Y mutation in the HFE gene among beta-thalassemic patients may contribute to worsen the clinical picture of these individuals. In view of the characteristics of the Brazilian population, the present results emphasize the need to screen for HFE mutations in beta-thalassemia carriers.
