Characterization of hereditary red blood cell membranopathies using combined targeted next-generation sequencing and osmotic gradient ektacytometry

Characterization of hereditary red blood cell membranopathies using combined targeted next-generation sequencing and osmotic gradient ektacytometry

Hereditary red blood cell (RBC) membranopathies are characterized by mutations in genes encoding skeletal proteins that alter the membrane complex structure. Hereditary spherocytosis (HS) is the most common inherited RBC membranopathy leading to hereditary hemolytic anemia with a worldwide distribut...

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Veröffentlicht in:International journal of hematology 2021-02, Vol.113 (2), p.163-174
Hauptverfasser: Vives-Corrons, Joan-Lluis, Krishnevskaya, Elena, Rodriguez, Ines Hernandez, Ancochea, Agueda
Format: Artikel
Sprache:eng
Schlagworte:
Anemia
Blood
Deformability
Deformation
Erythrocytes
Formability
Fragility
Hematology
Hemoglobinopathy
Hemolytic anemia
Hereditary spherocytosis
Medicine
Medicine & Public Health
Membranes
Morphology
Mutation
Next-generation sequencing
Oncology
Original Article
Rheological properties
Rheology
Spherocytosis
Transfusion
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container_issue 2
container_start_page 163
container_title International journal of hematology
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creator Vives-Corrons, Joan-Lluis
Krishnevskaya, Elena
Rodriguez, Ines Hernandez
Ancochea, Agueda
description Hereditary red blood cell (RBC) membranopathies are characterized by mutations in genes encoding skeletal proteins that alter the membrane complex structure. Hereditary spherocytosis (HS) is the most common inherited RBC membranopathy leading to hereditary hemolytic anemia with a worldwide distribution and an estimated prevalence, in Europe, of about 1:2000 individuals. The recent availability of targeted next generation sequencing (t-NGS) and its combination with RBC deformability measured with a laser-assisted optical rotational ektacytometer (LoRRca) has demonstrated to be the most powerful contribution to lower the percentage of hereditary hemolytic anemia undiagnosed cases. In order to know the kind and frequency of RBC membrane mutations in our geographical area (Catalonia) and to better understand their pathophysiology, 42 unrelated, non-transfusion-dependent (NTD) patients with hereditary hemolytic anemia have been studied by combining t-NGS and LoRRca. The osmoscan module of LoRRca provides three rheological profiles that reflect the maximal deformability (EImax), osmotic fragility (Omin), and hydration state (Ohyper) of RBCs and contribute to a better understanding of the contribution RBC rheology to the severity of anemia. From the 42 patients studied, 37 were suspected to be a RBC membrane defect due to phenotypic characteristics and abnormal RBC morphology and, from these, in 31 patients (83.8% of cases) the mutation was identified by t-NGS. No definite diagnosis was achieved in 11 patients (26.2% of cases), including 6 out of 37 cases, with suspected membranopathy, and 5 with unclassifiable HHA. In all these undiagnosed patients, the existence of hemoglobinopathy and/or enzymopathy was ruled out by conventional methods.
doi_str_mv 10.1007/s12185-020-03010-9
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Hereditary spherocytosis (HS) is the most common inherited RBC membranopathy leading to hereditary hemolytic anemia with a worldwide distribution and an estimated prevalence, in Europe, of about 1:2000 individuals. The recent availability of targeted next generation sequencing (t-NGS) and its combination with RBC deformability measured with a laser-assisted optical rotational ektacytometer (LoRRca) has demonstrated to be the most powerful contribution to lower the percentage of hereditary hemolytic anemia undiagnosed cases. In order to know the kind and frequency of RBC membrane mutations in our geographical area (Catalonia) and to better understand their pathophysiology, 42 unrelated, non-transfusion-dependent (NTD) patients with hereditary hemolytic anemia have been studied by combining t-NGS and LoRRca. The osmoscan module of LoRRca provides three rheological profiles that reflect the maximal deformability (EImax), osmotic fragility (Omin), and hydration state (Ohyper) of RBCs and contribute to a better understanding of the contribution RBC rheology to the severity of anemia. From the 42 patients studied, 37 were suspected to be a RBC membrane defect due to phenotypic characteristics and abnormal RBC morphology and, from these, in 31 patients (83.8% of cases) the mutation was identified by t-NGS. No definite diagnosis was achieved in 11 patients (26.2% of cases), including 6 out of 37 cases, with suspected membranopathy, and 5 with unclassifiable HHA. In all these undiagnosed patients, the existence of hemoglobinopathy and/or enzymopathy was ruled out by conventional methods.</abstract><cop>Singapore</cop><pub>Springer Singapore</pub><pmid>33074480</pmid><doi>10.1007/s12185-020-03010-9</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0003-1820-2594</orcidid></addata></record>
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source SpringerNature Journals
subjects Anemia
Blood
Deformability
Deformation
Erythrocytes
Formability
Fragility
Hematology
Hemoglobinopathy
Hemolytic anemia
Hereditary spherocytosis
Medicine
Medicine & Public Health
Membranes
Morphology
Mutation
Next-generation sequencing
Oncology
Original Article
Rheological properties
Rheology
Spherocytosis
Transfusion
title Characterization of hereditary red blood cell membranopathies using combined targeted next-generation sequencing and osmotic gradient ektacytometry
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