Your search keyword '"hemolytic anemias"' showing total 19 results

1. Peroxiredoxins in erythrocytes: far beyond the antioxidant role.

Author

de Paula, Carla Peres, de Oliveira da Silva, João Pedro Maia, Romanello, Karen Simone, Bernardo, Victoria Simões, Torres, Flaviene Felix, da Silva, Danilo Grünig Humberto, and da Cunha, Anderson Ferreira

Subjects

*PEROXIREDOXINS, *ERYTHROCYTES, *IRON in the body, *HEMOLYTIC anemia, *MOLECULAR chaperones

Abstract

The red blood cells (RBCs) are essential to transport oxygen (O2) and nutrients throughout the human body. Changes in the structure or functioning of the erythrocytes can lead to several deficiencies, such as hemolytic anemias, in which an increase in reactive oxidative species generation is involved in the pathophysiological process, playing a significant role in the severity of several clinical manifestations. There are important lines of defense against the damage caused by oxidizing molecules. Among the antioxidant molecules, the enzyme peroxiredoxin (Prx) has the higher decomposition power of hydrogen peroxide, especially in RBCs, standing out because of its abundance. This review aimed to present the recent findings that broke some paradigms regarding the three isoforms of Prxs found in RBC (Prx1, Prx2, and Prx6), showing that in addition to their antioxidant activity, these enzymes may have supplementary roles in transducing peroxide signals, as molecular chaperones, protecting from membrane damage, and maintenance of iron homeostasis, thus contributing to the overall survival of human RBCs, roles that seen to be disrupted in hemolytic anemia conditions. [ABSTRACT FROM AUTHOR]

Published

2023

2. Thrombosis in Pregnant Women with Hemolytic Anemia.

Author

Papadakis, Emmanouil and Brenner, Benjamin

Subjects

*HEMOLYTIC anemia, *PREGNANT women, *THROMBOSIS, *CHILDBEARING age, *DELAYED diagnosis

Abstract

Hemolytic anemias are a group of uncommon disorders affecting both genders, frequently occurring at the reproductive age. While a link between hemolysis and hypercoagulability has been suggested based on the elucidation of certain involved pathophysiological mechanisms, the extent of thrombotic risk in pregnant women with hemolytic anemia remains debatable. Due to the paucity of pregnancy-related data, risk assessment of gestations in women with hemolytic anemia is complicated. This review will highlight the latest advances in the diagnosis and management of these challenging disorders in pregnancy. [ABSTRACT FROM AUTHOR]

Published

2023

3. Computed tomography of hyper-attenuated liver: Pictorial essay.

Author

Ghahremani, Gary G., Hahn, Michael E., and Fishman, Elliot K.

Subjects

*COMPUTED tomography, *HEPATOLENTICULAR degeneration, *GENETIC disorders, *LIVER

Abstract

Demonstration of a very dense or hyper-attenuated liver on the pre-contrast CT images of the abdomen can be an unexpected finding. It may present as a diagnostic challenge if the underlying cause of it is not apparent from the provided clinical history. There are about 12 different pathologic conditions that are associated with deposition of radiopaque elements within the hepatic parenchyma, resulting in diffuse or multi-lobar hyperdense appearance of the liver on abdominal radiographs and CT. Most of them are drug-induced or iatrogenic in nature, while others are the sequelae of genetic disorders like thalassemia, Wilson's disease, and primary hemochromatosis. This pictorial essay will present the CT appearance and etiology of hyper-attenuated liver in various clinical entities. • Hyper-attenuated liver is best diagnosed by non-enhanced CT. • It appears as diffusely increased liver density of over 70 HU. • It indicates deposition of radiopaque elements in the liver parenchyma. • The most common cause of it is iodine from amiodarone therapy. • Various other etiologies of this condition are presented. [ABSTRACT FROM AUTHOR]

Published

2023

4. Effect of primary lesions in cytoskeleton proteins on red cell membrane stability in patients with hereditary spherocytosis.

Author

Vercellati, Cristina, Marcello, Anna Paola, Fattizzo, Bruno, Zaninoni, Anna, Seresini, Agostino, Barcellini, Wilma, Bianchi, Paola, and Fermo, Elisa

Subjects

MEMBRANE proteins, CYTOSKELETON, BIOMARKERS, HEMOLYTIC anemia, SYMPTOMS

Abstract

We investigated by targeted next generation sequencing the genetic bases of hereditary spherocytosis in 25 patients and compared the molecular results with the biochemical lesion of RBC membrane obtained by SDS-PAGE analysis. The HS diagnosis was based on available guidelines for diagnosis of congenital hemolytic anemia, and patients were selected because of atypical clinical presentation or intra-family variability, or because presented discrepancies between laboratory investigation and biochemical findings. In all patients but 5 we identified pathogenic variants in SPTA1, SPTB, ANK1, SLC4A1, EPB42 genes able to justify the clinical phenotype. Interestingly, a correspondence between the biochemical lesion and the molecular defect was identified in only 11/25 cases, mostly with band 3 deficiency due to SLC4A1 mutations. Most of the mutations in SPTB and ANK1 gene didn't hesitate in abnormalities of RBC membrane protein; conversely, in two cases the molecular lesion didn't correspond to the biochemical defect, suggesting that a mutation in a specific cytoskeleton protein may result in a more complex RBC membrane damage or suffering. Finally, in two cases the HS diagnosis was maintained despite absence of both protein defect and molecular lesion, basing on clinical and family history, and on presence of clear laboratory markers of HS. The study revealed complex relationships between the primary molecular lesion and the final effect in the RBC membrane cytoskeleton, and further underlines the concept that there is not a unique approach to the diagnosis of HS. [ABSTRACT FROM AUTHOR]

Published

2022

5. Effect of primary lesions in cytoskeleton proteins on red cell membrane stability in patients with hereditary spherocytosis

Author

Cristina Vercellati, Anna Paola Marcello, Bruno Fattizzo, Anna Zaninoni, Agostino Seresini, Wilma Barcellini, Paola Bianchi, and Elisa Fermo

Subjects

hereditary spherocytosis, hemolytic anemias, cytoskeleton, RBC membrane defects, NGS, Physiology, QP1-981

Abstract

We investigated by targeted next generation sequencing the genetic bases of hereditary spherocytosis in 25 patients and compared the molecular results with the biochemical lesion of RBC membrane obtained by SDS-PAGE analysis. The HS diagnosis was based on available guidelines for diagnosis of congenital hemolytic anemia, and patients were selected because of atypical clinical presentation or intra-family variability, or because presented discrepancies between laboratory investigation and biochemical findings. In all patients but 5 we identified pathogenic variants in SPTA1, SPTB, ANK1, SLC4A1, EPB42 genes able to justify the clinical phenotype. Interestingly, a correspondence between the biochemical lesion and the molecular defect was identified in only 11/25 cases, mostly with band 3 deficiency due to SLC4A1 mutations. Most of the mutations in SPTB and ANK1 gene didn’t hesitate in abnormalities of RBC membrane protein; conversely, in two cases the molecular lesion didn’t correspond to the biochemical defect, suggesting that a mutation in a specific cytoskeleton protein may result in a more complex RBC membrane damage or suffering. Finally, in two cases the HS diagnosis was maintained despite absence of both protein defect and molecular lesion, basing on clinical and family history, and on presence of clear laboratory markers of HS. The study revealed complex relationships between the primary molecular lesion and the final effect in the RBC membrane cytoskeleton, and further underlines the concept that there is not a unique approach to the diagnosis of HS.

Published

2022

6. Gene Editing for Inherited Red Blood Cell Diseases.

Author

Quintana-Bustamante, Oscar, Fañanas-Baquero, Sara, Dessy-Rodriguez, Mercedes, Ojeda-Pérez, Isabel, and Segovia, Jose-Carlos

Subjects

GENOME editing, ERYTHROCYTES, BLOOD diseases, SICKLE cell anemia, PYRUVATE kinase, AGROBACTERIUM tumefaciens

Abstract

Today gene therapy is a real therapeutic option to address inherited hematological diseases that could be beneficial for thousands of patients worldwide. Currently, gene therapy is used to treat different monogenic hematological pathologies, including several red blood cell diseases such as β-thalassemia, sickle cell disease and pyruvate kinase deficiency. This approach is based on addition gene therapy, which consists of the correction of hematopoietic stem cells (HSCs) using lentiviral vectors, which integrate a corrected version of the altered gene. Lentivirally-corrected HSCs generate healthy cells that compensate for the deficiency caused by genetic mutations. Despite its successful results, this approach lacks both control of the integration of the transgene into the genome and endogenous regulation of the therapeutic gene, both of which are important aspects that might be a cause for concern. To overcome these limitations, gene editing is able to correct the altered gene through more precise and safer approaches. Cheap and easy-to-design gene editing tools, such as the CRISPR/Cas9 system, allow the specific correction of the altered gene without affecting the rest of the genome. Inherited erythroid diseases, such as thalassemia, sickle cell disease and Pyruvate Kinase Deficiency, have been the test bed for these gene editing strategies, and promising results are currently being seen. CRISPR/Cas9 system has been successfully used to manipulate globin regulation to re-activate fetal globin chains in adult red blood cells and to compensate for hemoglobin defects. Knock-in at the mutated locus to express the therapeutic gene under the endogenous gene regulatory region has also been accomplished successfully. Thanks to the lessons learned from previous lentiviral gene therapy research and trials, gene editing for red blood cell diseases is rapidly moving from its proof-of-concept to its first exciting results in the clinic. Indeed, patients suffering from β-thalassemia and sickle cell disease have already been successfully treated with gene editing, which will hopefully inspire the use of gene editing to cure erythroid disorders and many other inherited diseases in the near future. [ABSTRACT FROM AUTHOR]

Published

2022

7. Gene Editing for Inherited Red Blood Cell Diseases

Author

Oscar Quintana-Bustamante, Sara Fañanas-Baquero, Mercedes Dessy-Rodriguez, Isabel Ojeda-Pérez, and Jose-Carlos Segovia

Subjects

gene therapy (GT), gene editing, hemolytic anemias, pyruvate kinase deficiency (PKD), hemoglobinopathies, Physiology, QP1-981

Abstract

Today gene therapy is a real therapeutic option to address inherited hematological diseases that could be beneficial for thousands of patients worldwide. Currently, gene therapy is used to treat different monogenic hematological pathologies, including several red blood cell diseases such as β-thalassemia, sickle cell disease and pyruvate kinase deficiency. This approach is based on addition gene therapy, which consists of the correction of hematopoietic stem cells (HSCs) using lentiviral vectors, which integrate a corrected version of the altered gene. Lentivirally-corrected HSCs generate healthy cells that compensate for the deficiency caused by genetic mutations. Despite its successful results, this approach lacks both control of the integration of the transgene into the genome and endogenous regulation of the therapeutic gene, both of which are important aspects that might be a cause for concern. To overcome these limitations, gene editing is able to correct the altered gene through more precise and safer approaches. Cheap and easy-to-design gene editing tools, such as the CRISPR/Cas9 system, allow the specific correction of the altered gene without affecting the rest of the genome. Inherited erythroid diseases, such as thalassemia, sickle cell disease and Pyruvate Kinase Deficiency, have been the test bed for these gene editing strategies, and promising results are currently being seen. CRISPR/Cas9 system has been successfully used to manipulate globin regulation to re-activate fetal globin chains in adult red blood cells and to compensate for hemoglobin defects. Knock-in at the mutated locus to express the therapeutic gene under the endogenous gene regulatory region has also been accomplished successfully. Thanks to the lessons learned from previous lentiviral gene therapy research and trials, gene editing for red blood cell diseases is rapidly moving from its proof-of-concept to its first exciting results in the clinic. Indeed, patients suffering from β-thalassemia and sickle cell disease have already been successfully treated with gene editing, which will hopefully inspire the use of gene editing to cure erythroid disorders and many other inherited diseases in the near future.

Published

2022

8. Hematologic Disorders and Pulmonary Hypertension.

Author

Menon, Divya Padmanabhan and Preston, Ioana R.

Subjects

*PULMONARY hypertension, *HEPATIC veno-occlusive disease, *BLOOD diseases

Published

2021

9. Bone Health in Patients With Hematopoietic Disorders of Bone Marrow Origin: Systematic Review and Meta- Analysis.

Author

Steer, Kieran, Stavnichuk, Mariya, Morris, Martin, and Komarova, Svetlana V

Abstract

ABSTRACT Blood cell production and bone homeostasis are physically interlinked systems that exhibit active cross-talk. We examined how bone health is affected in patients with hematopoietic disorders due to abnormal proliferation of bone marrow cells. The electronic databases Medline, Embase, PubMed, BIOSIS Previews, Web of Science, and Cochrane were searched for studies presenting numerical values for trabecular bone volume or bone mineral density in control and patients with hematopoietic disorders. We identified 5 studies for beta-thalassemia, 6 for sickle cell anemia, 2 for polycythemia vera and essential thrombocythemia, 3 for chronic myelogenous leukemia, 6 for myelofibrosis, 5 for multiple myeloma, and 4 studies each for systemic mastocytosis, lymphocytic leukemia, and hemochromatosis. The effect of the disease state on bone density was significant and negative for beta-thalassemia ( r = -2.00; 95% confidence interval [CI] -3.41, -0.58; p < 0.005), sickle cell anemia (-0.91; -1.36, -0.47; p < 0.00005), chronic myelogenous leukemia (-0.55; -0.88, -0.22; p < 0005), mastocytosis (-0.99; -1.16, -0.82; p < 0.00001), lymphoblastic leukemia (-0.69; -0.98, -0.40; p < 0.00001), multiple myeloma (-0.67; -0.99, -0.35; p < 0.00005), and hemochromatosis (-1.15; -1.64, -0.66; p < 0.00001). The changes were negative but not significant for polycythemia vera (-0.16; -0.38, 0.05; p = 0.069) and essential thrombocythemia (-0.33; -0.92, 0.26; p = 0.14). In myelofibrosis, disease state was associated with increased bone density (0.74; 0.12, 1.36; p < 0.05). Bone density change significantly and negatively correlated with the level of ferritin and bone marrow cellularity but not with hemoglobin or erythropoietin. Thus, independent of hematopoietic lineage, abnormal proliferation of bone marrow cells appears to be associated with bone loss. Iron metabolism may independently contribute to bone homeostasis. © 2016 American Society for Bone and Mineral Research. [ABSTRACT FROM AUTHOR]

Published

2017

10. Reconstructing Health Profiles from Skeletal Remains.

Abstract

ABSTRACT This chapter provides a selective review of nine skeletal and dental lesions that have been used to construct the skeletal database employed in the development of the health index. These lesions are described within a biosocial framework. Change in length of subadult long bones can identify differences in nutrition and health. Linear enamel hypoplasias provide information on the severity and temporal pattern of stress during infancy and childhood. Porotic hyperostosis is a lesion of the skull associated with iron deficiency. Bony responses to bacterial infections are associated with differences in contact with bacteria and the levels of resistance. Patterns of healed fractures indicate activities that include livingon difficult terrain, hazardous occupations, and the extent of warfare and interpersonal violence. Osteoarthritis indicates the degree of regular strenuous activity and quality of life. Dental decay and tooth loss have functional significance for nutritional status. INTRODUCTION AND PURPOSE Analyses of skeletal remains are providing a unique window onto patterns of health in past human populations. Until very recently the surviving human tissues, most often bones and teeth (and less often skin, hair, and fluids, such as blood), have usually been ignored in historical and prehistoric research, or at best, their analysis was relegated to appendixes of archaeological site reports (Buikstra, 1991). However, archaeologists and historians have begun to realize that human remains are the most direct means for assessment of past biologies and how these biologies interacted with social, political, and economic processes. [ABSTRACT FROM AUTHOR]

Published

2002

11. Effect of melatonin on protection against oxidative stress induced in erythroid cells K562

Author

Paula, Carla Peres de, Cunha, Anderson Ferreira da, and Oliveira, Marcos Antônio de

Subjects

N-acetil-5-metoxitriptamina, N-Acetyl-5-methoxytryptamine, Oxidative stress, Estresse oxidativo, BIOQUIMICA::BIOLOGIA MOLECULAR [CIENCIAS BIOLOGICAS], Hemolytic anemias, Antioxidantes, GENETICA [CIENCIAS BIOLOGICAS], Anemias hemolíticas, Antioxidants

Abstract

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Erythrocytes are anucleated cells that play an extremely important role, since they participate in the transport of oxygen (O2) to tissues. Changes in the structure or functioning of the erythrocyte can lead to several deficiencies, such as hemolytic anemias, as the main clinical causes that can lead to an increase in the production of Reactive Oxygen Species (ROS), aggravating the patient's clinical condition. Several compounds have been studied as complementary therapy in hemolytic anemias to end the oxidative effects caused by these diseases, but no success has been allowed until then. Melatonin is a hormone that participates as a regulator of the sleep cycle, and more recently a role as an antioxidant has also been given to this compound. In this context, the present study aimed to evaluate the direct and indirect antioxidant effects of melatonin on erythrocyte cells, using K562 erythroid cells as a biological model. Therefore, a genetic expression and protein content of different antioxidant enzymes is available in K562 cells, differentiated or not by the addition of hydroxyurea and hemin in the face of melatonin treatment (1nM and 1mM) when induced or without oxidative stress (100μM H2O2). Viability, differentiation and level of lipid peroxidation are also available in these cells. Our results show that the administration of 1nM melatonin leads to an increase in the amount of undifferentiated K562 cells when exposed to oxidative stress induced by H2O2, in addition to decreasing the levels of lipid peroxidation in these cells. mRNA expression of the antioxidant enzymes PRDX1 and PRDX2 was increased when 1mM melatonin was administered in the presence of H2O2 in differentiated cells (PRDX1 mRNA - 50% on day 2 and 50% on day 4; PRDX2 mRNA - 100% on day 2 and 66% on day 4). An analysis of the protein content also showed important effects of melatonin, whose administration of 1mM increased the expression of NRF2 (290% without H2O2, and 437% with H2O2) and of the antioxidant enzymes PRDX2 (20% without H2O2 and 57% with H2O2) and CAT (170% without H2O2 and 200% with H2O2) in differentiated cells on day 4. In this context, a melatonin has shown a promising therapeutic agent in this type of cell, modifying an expression of important biomarkers related to erythrocyte redox metabolism and showing itself potentially important for new antioxidant therapies. Os eritrócitos são células anucleadas que desempenham um papel extremamente importante, já que participam do transporte de oxigênio (O2) para os tecidos. Alterações na estrutura ou funcionamento do eritrócito podem levar a diversas deficiências, como as anemias hemolíticas, as quais causam manifestações clinicas que podem levar ao aumento de produção de Espécies Reativas de Oxigênio (ERO) agravando o quadro clinico do paciente. Diversos compostos vêm sendo estudados como terapia complementar em anemias hemolíticas a fim de minimizar os efeitos oxidativos causados por essas doenças, entretanto nenhum sucesso foi obtido até então. A melatonina é um hormônio que participa como regulador do ciclo do sono, e mais recentemente um papel como antioxidante vem sendo conferido também a este composto. Neste contexto, o presente estudo teve como objetivo avaliar possíveis efeitos antioxidantes diretos e indiretos da melatonina em células eritrocitárias, utilizando células eritróides K562 como um modelo biológico. Para tanto, avaliamos a expressão gênica e conteúdo proteico de diferentes enzimas antioxidantes em células K562 diferenciadas ou não pela adição de Hidroxiureia e Hemina frente o tratamento de melatonina (1nM e 1mM) quando induzidas ou não a estresse oxidativo (100μM de H2O2). Avaliamos também a viabilidade, diferenciação e nível de peroxidação lipídica nestas células. Nossos resultados mostraram que a administração da melatonina a 1nM levou ao aumento da sobrevivência das células K562 não diferenciadas quando expostas ao estresse oxidativo induzido por H2O2, juntamente com a diminuição dos níveis de peroxidação lipídica nessas células. A expressão de RNAm das enzimas antioxidantes PRDX1 e PRDX2 foi aumentada quando administrada melatonina a 1mM na presença de H2O2 em células diferenciadas (RNAm de PRDX1 - 50% no dia 2 e 50% no dia 4; RNAm de PRDX2 – 100% no dia 2 e 66% no dia 4). A análise de conteúdo proteico também mostrou importantes efeitos da melatonina, cuja administração de 1mM aumentou a expressão de NRF2 (290% sem H2O2, e 437% com H2O2) e das enzimas antioxidantes PRDX2 (20% sem H2O2, e 57% com H2O2) e CAT (170% sem H2O2, e 200% com H2O2) em células diferenciadas no dia 4. Neste contexto, a melatonina vem se mostrando um promissor agente terapêutico nesse tipo celular, modificando a expressão de importantes biomarcadores relacionados ao metabolismo redox eritrocitário e se mostrando potencialmente importante para novas terapias antioxidantes. CAPES: código de financiamento - 001

Published

2020

12. Stiffness of normal and pathological erythrocytes studied by means of atomic force microscopy

Author

Dulińska, Ida, Targosz, Marta, Strojny, Wojciech, Lekka, Małgorzata, Czuba, Paweł, Balwierz, Walentyna, and Szymoński, Marek

Subjects

*ATOMIC force microscopy, *BIOMECHANICS, *SCANNING probe microscopy, *ERYTHROCYTES

Abstract

Abstract: During recent years, atomic force microscopy has become a powerful technique for studying the mechanical properties (such as stiffness, viscoelasticity, hardness and adhesion) of various biological materials. The unique combination of high-resolution imaging and operation in physiological environment made it useful in investigations of cell properties. In this work, the microscope was applied to measure the stiffness of human red blood cells (erythrocytes). Erythrocytes were attached to the poly-l-lysine-coated glass surface by fixation using 0.5% glutaraldehyde for 1 min. Different erythrocyte samples were studied: erythrocytes from patients with hemolytic anemias such as hereditary spherocytosis and glucose-6-phosphate-dehydrogenase deficiency patients with thalassemia, and patients with anisocytosis of various causes. The determined Young''s modulus was compared with that obtained from measurements of erythrocytes from healthy subjects. The results showed that the Young''s modulus of pathological erythrocytes was higher than in normal cells. Observed differences indicate possible changes in the organization of cell cytoskeleton associated with various diseases. [Copyright &y& Elsevier]

Published

2006

13. Fisiopatogenia e métodos diagnósticos das anemias hemolíticas: uma revisão integrativa

Author

da Cruz, Tatyele Corrêa and Antunes, Liana

Subjects

Anemias Hemolíticas, Hemoglobinopatias e Diagnóstico Laboratorial, Hemolytic Anemias, Hemoglobinopathies and Laboratory Diagnosis

Abstract

Introduction: Hemoglobinopathies arise from mutations in genes responsible for the synthesis of globin chains and have an autosomal recessive inheritance pattern. Structural changes globally detected in globin chains include hemoglobin S, hemoglobin C, hemoglobin E and hemoglobin D.Objective: To review the literature on the main hemoglobinopathies, addressing their pathophysiology, diagnostic methods and the main laboratory abnormalities.Methods: Specific descriptors (English / Portuguese) related to the Mesh Database and Boolean operator (AND / OR) were adopted. The searches were carried out in PUBMED, LILACS, ScIELO and COCHRANE. The descriptors “hemolytic anemia, hemoglobinopathies and laboratory diagnosis” should be included in the title, and / or keywords and / or summary. In addition, were included studies between 2012 and 2017.Results: A total of 1.010 references were identified, of which 937 were considered eligible for inclusion. At the end, 79 studies were included in the study.Conclusions: Considering the importance of a precise and reliable laboratory diagnosis with the clinical presentation presented by the patient, the present study reviewed the scientific literature identifying the main hemoglobinopathies and characterizing the quantitative and qualitative changes in the main hemolytic anemias. It is important to perform and interpret correctly these exams, and whenever possible, include in the patient’s report observations that may aid in clinical management. Introdução: Hemoglobinopatias decorrem de mutações nos genes responsáveis pela síntese das cadeias globínicas e possuem padrão de herança autossômico recessivo. As alterações estruturais detectadas mundialmente nas cadeias globínicas incluem hemoglobina S, hemoglobina C, hemoglobina E e hemoglobina D.Objetivo: Revisar a literatura sobre as principais hemoglobinopatias abordando a sua fisiopatogenia, métodos diagnósticos e alterações laboratoriais.Métodos: Adotou-se descritores específicos (inglês/português) vinculados ao recurso “MeshDatabase” e ao operador booleano (AND/OR). As buscas foram realizadas no PUBMED, LILACS, ScIELO e COCHRANE. Os descritores “anemias hemolíticas, hemoglobinopatias e diagnóstico laboratorial” deveriam constar no título, e/ou palavras-chave e/ou resumo. Além disso, foram incluídos apenas os estudos entre 2012 e 2017.Resultados: Foram identificadas 1.010 referências, e, destas, 937 foram considerados elegíveis para inclusão. Ao final, 79 foram incluídos no estudo.Conclusões: Considerando-se a importância de um diagnóstico laboratorial preciso e fidedigno com a clínica apresentada pelo paciente, o presente estudo revisou a literatura científica identificando as principais hemoglobinopatias e caracterizando as alterações quantitativas e qualitativas nas principais anemias hemolíticas. É importante realizar e interpretar corretamente esses exames, e, sempre que possível, incluir, no laudo do paciente, observações que podem auxiliar no manejo clínico.

Published

2018

14. Red Cell Deformability Changes in Hemolytic Anemias Estimated by Diffractometric Methods (Ektacytometry) Preliminary Results

Author

Allard, C., Mohandas, N., Bessis, M., Bessis, Marcel, editor, Shohet, Stephen B., editor, and Mohandas, N., editor

Published

1978

15. Stiffness of normal and pathological erythrocytes studied by means of atomic force microscopy

Author

Wojciech Strojny, Marta Targosz, P. Czuba, Ida Dulińska, Walentyna Balwierz, Małgorzata Lekka, and Marek Szymonski

Subjects

erythrocyte stiffness, Erythrocytes, Atomic force microscopy, Thalassemia, Biophysics, Stiffness, Microscopy, Atomic Force, medicine.disease, Biochemistry, Elasticity, Hereditary spherocytosis, chemistry.chemical_compound, chemistry, Microscopy, medicine, Humans, Anisocytosis, atomic force microscopy (AFM), Glutaraldehyde, medicine.symptom, hemolytic anemias, Cell Shape, Pathological

Abstract

During recent years, atomic force microscopy has become a powerful technique for studying the mechanical properties (such as stiffness, viscoelasticity, hardness and adhesion) of various biological materials. The unique combination of high-resolution imaging and operation in physiological environment made it useful in investigations of cell properties. In this work, the microscope was applied to measure the stiffness of human red blood cells (erythrocytes). Erythrocytes were attached to the poly-L-lysine-coated glass surface by fixation using 0.5% glutaraldehyde for 1 min. Different erythrocyte samples were studied: erythrocytes from patients with hemolytic anemias such as hereditary spherocytosis and glucose-6-phosphate-dehydrogenase deficiency patients with thalassemia, and patients with anisocytosis of various causes. The determined Young's modulus was compared with that obtained from measurements of erythrocytes from healthy subjects. The results showed that the Young's modulus of pathological erythrocytes was higher than in normal cells. Observed differences indicate possible changes in the organization of cell cytoskeleton associated with various diseases.

Published

2006

16. Toxické hemolytické anémie

Author

ZEMANOVÁ, Vendula

Subjects

hemic and lymphatic diseases, léky, toxic hemolytic anemias, hematologie, causations of hemolysis, drug-related hemolysis, drugs, poléková hemolýza, hematology, anémie, příčiny hemolýzy, hemolytické anémie, znaky anémie, hemolytic anemias, toxické hemolytické anémie, signs of anemia, anemias

Abstract

This thesis deals with toxic hemolytic anemias which are often unheeded. There are described laboratory signs of hemolytic anemias, their dividing into the various groups and it focuses mainly to toxic and drug-related hemolytic anemias and their causations.

Published

2014

17. Band 3 null VIENNA , a novel homozygous SLC4A1 p.Ser477X variant causing severe hemolytic anemia, dyserythropoiesis and complete distal renal tubular acidosis.

Author

Kager L, Bruce LJ, Zeitlhofer P, Flatt JF, Maia TM, Ribeiro ML, Fahrner B, Fritsch G, Boztug K, and Haas OA

Subjects

Acidosis, Renal Tubular pathology, Anemia, Hemolytic pathology, Child, Preschool, Erythropoiesis, Homozygote, Humans, Male, Prognosis, Acidosis, Renal Tubular etiology, Anemia, Hemolytic etiology, Anion Exchange Protein 1, Erythrocyte genetics, Codon, Nonsense genetics, Erythrocytes, Abnormal pathology

Abstract

We describe the second patient with anionic exchanger 1/band 3 null phenotype (band 3 null VIENNA ), which was caused by a novel nonsense mutation c.1430C>A (p.Ser477X) in exon 12 of SLC4A1. We also update on the previous band 3 null COIMBRA patient, thereby elucidating the physiological implications of total loss of AE1/band 3. Besides transfusion-dependent severe hemolytic anemia and complete distal renal tubular acidosis, dyserythropoiesis was identified in the band 3 null VIENNA patient, suggesting a role for band 3 in erythropoiesis. Moreover, we also, for the first time, report that long-term survival is possible in band 3 null patients., (© 2016 Wiley Periodicals, Inc.)

Published

2017

18. Homozygous α-thalassemia: Challenges surrounding early identification, treatment, and cure.

Author

Pecker LH, Guerrera MF, Loechelt B, Massaro A, Abraham AA, Fasano RM, and Meier ER

Subjects

Blood Transfusion, Intrauterine, Female, Humans, Infant, Newborn, Male, Pregnancy, Prognosis, alpha-Thalassemia diagnosis, Blood Transfusion, Hematopoietic Stem Cell Transplantation, alpha-Thalassemia therapy

Abstract

The prognosis for homozygous α-thalassemia is changing. Prenatal diagnosis and intrauterine transfusions (IUT) reduce maternofetal morbidity and mortality; hematopoietic stem cell transplant (HSCT) is curative. Empiric evidence to support IUT and HSCT to treat homozygous α-thalassemia is lacking. The first case of curative HSCT for homozygous α-thalassemia was reported in 1997. Nearly 20 years later, five additional reports are published. We review the literature and report an institutional experience with three homozygous α-thalassemia patients. The first died shortly after birth. The second underwent HSCT after years of chronic transfusion therapy. The third benefited from IUT and HSCT. These cases exemplify the varied outcomes associated with this condition., (© 2016 Wiley Periodicals, Inc.)

Published

2017

19. Depletion of Cardiac Norepinephrine during Two Forms of Hemolytic Anemia in the Rat.

Author

ARMED FORCES RADIOBIOLOGY RESEARCH INST BETHESDA MD, Swann,J. W., Contrera,J. F., ARMED FORCES RADIOBIOLOGY RESEARCH INST BETHESDA MD, Swann,J. W., and Contrera,J. F.

Abstract

Rats were treated with phenylhydrazine. Following the rapid onset of anemia, there was a loss of 60 percent of the stored norepinephrine in the heart within 48 hours of treatment. Associated with the loss of cardiac norepinephrine was an increase in the wet weight of the heart, reaching 40 percent above control 48 hours after treatment. Phenylhydrazine itself probably does not directly mediate this depletion since the vas deferens, brain and spleen have a normal store of norepinephrine at 48 hours. Anemia was also induced by treating rats with antirat red blood cell serum. The hearts of these rats were also depleted of norepinephrine. These experiments show that during two forms of anemia there is a loss of norepinephrine from the sympathetic neurons innervating the heart.

Published

1976