Hemoglobina Denver, una causa de desaturación en oximetría de pulso. Reporte de caso en un paciente pediátrico / Hemoglobin Denver, a cause of desaturated pulse oximetry. A pediatric case report

Las hemoglobinopatías son trastornos genéticos que afectan a la molécula de hemoglobina (Hb). Las mutaciones en las cadenas a o b que alteran el tetrámero de Hb pueden modificar la capacidad de la molécula para unirse al oxígeno. Las hemoglobinopatías con baja afinidad al oxígeno pueden presentarse con cianosis y una lectura alterada de la oximetría de pulso, lo que lleva a pruebas innecesarias y, a veces, invasivas para descartar afecciones cardiovasculares y respiratorias. En el siguiente reporte de caso, presentamos a una paciente pediátrica, asintomática, que se presentó a la consulta por detección de desaturación en oximetría de pulso. Las pruebas de laboratorio iniciales mostraron una anemia normocítica, normocrómica. Las muestras de gas venoso demostraron una p50 elevada. Después de extensas herramientas de diagnóstico, se diagnosticó una variante de Hb con baja afinidad al oxígeno, Hb Denver.

Hemoglobinopathies are genetic disorders that affect the hemoglobin (Hb) molecule. Mutations in the alpha or beta chains altering the Hb tetramer may modify the molecule's oxygen-binding capacity. Hemoglobinopathies with low oxygen affinity may occur with cyanosis and an altered pulse oximetry reading, leading to unnecessary and sometimes invasive tests to rule out cardiovascular and respiratory conditions. In the case report described here, we present an asymptomatic pediatric patient who consulted for desaturated pulse oximetry. Her initial laboratory tests showed normocytic, normochromic anemia. Venous blood gas samples showed an elevated p50. After using extensive diagnostic tools, a variant of Hb with low oxygen affinity was diagnosed: Hb Denver.

Hemoglobin Denver, a cause of desaturated pulse oximetry. A pediatric case report. / Hemoglobina Denver, una causa de desaturación en oximetría de pulso. Reporte de caso en un paciente pediátrico.

Hemoglobinopathies are genetic disorders that affect the hemoglobin (Hb) molecule. Mutations in the alpha or beta chains altering the Hb tetramer may modify the molecule's oxygen-binding capacity. Hemoglobinopathies with low oxygen affinity may occur with cyanosis and an altered pulse oximetry reading, leading to unnecessary and sometimes invasive tests to rule out cardiovascular and respiratory conditions. In the case report described here, we present an asymptomatic pediatric patient who consulted for desaturated pulse oximetry. Her initial laboratory tests showed normocytic, normochromic anemia. Venous blood gas samples showed an elevated p50. After using extensive diagnostic tools, a variant of Hb with low oxygen affinity was diagnosed: Hb Denver.

Las hemoglobinopatías son trastornos genéticos que afectan a la molécula de hemoglobina (Hb). Las mutaciones en las cadenas a o b que alteran el tetrámero de Hb pueden modificar la capacidad de la molécula para unirse al oxígeno. Las hemoglobinopatías con baja afinidad al oxígeno pueden presentarse con cianosis y una lectura alterada de la oximetría de pulso, lo que lleva a pruebas innecesarias y, a veces, invasivas para descartar afecciones cardiovasculares y respiratorias. En el siguiente reporte de caso, presentamos a una paciente pediátrica, asintomática, que se presentó a la consulta por detección de desaturación en oximetría de pulso. Las pruebas de laboratorio iniciales mostraron una anemia normocítica, normocrómica. Las muestras de gas venoso demostraron una p50 elevada. Después de extensas herramientas de diagnóstico, se diagnosticó una variante de Hb con baja afinidad al oxígeno, Hb Denver.

Six novel variants in the PKLR gene associated with pyruvate kinase deficiency in Argentinian patients.

BACKGROUND: Pyruvate kinase deficiency (PKD) is a rare recessive congenital hemolytic anemia caused by mutations in the PKLR gene. The disease shows a marked variability in clinical expression. We studied the molecular features of nine unrelated Argentinian patients with congenital hemolytic anemia associated with erythrocyte pyruvate kinase deficiency. DESIGN AND METHODS: Routine hematologic investigations were performed to rule out other causes of chronic hemolytic anemia. Sanger sequencing and in-sílico analysis were carried out to identify and characterize the genetics variants. RESULTS: Six different novel missense variants were detected among the 18 studied alleles: c.661 G > C (Asp221His), c.956 G > T (Gly319Val), c.1595 G > C (Arg532Pro), c.347 G > A (Arg116Gln), c.1232 G > T (Gly411Val), c.1021G > A (Gly341Ser). Structural implications of amino-acid substitutions were correlated with the clinical phenotypes seen in the probands. CONCLUSIONS: This is the first comprehensive report on molecular characterization of pyruvate kinase deficiency in Argentina and the second from South America that would contribute to our knowledge on the distribution and frequency of PKLR variants in our population but also offer new insights into the interpretation of the effect of PKLR variants and phenotype.

Xerocitosis hereditaria. Presentación de dos casos clínicos pediátricos / Hereditary xerocytosis. Presentation of two pediatric cases

La xerocitosis hereditaria es un desorden poco frecuente causado por defectos en la permeabilidad eritrocitaria, que se caracteriza por anemia hemolítica de gravedad variable y sobrecarga de hierro. El diagnóstico suele ser tardío y confundirse con otras anemias hemolíticas, lo que puede llevar a indicaciones de procedimientos, como la esplenectomía, contraindicados en estos pacientes. Se reportan las características clínicas, hematológicas y moleculares de dos pacientes pediátricos no relacionados con diagnóstico de xerocitosis hereditaria. Ambos presentaban eritrocitos deshidratados con alta concentración de hemoglobina corpuscular media, frotis no patognomónico, marcadores de hemólisis y una curva de fragilidad osmótica resistente. El diagnóstico se confirmó por la secuenciación del gen PIEZO.Se resalta la importancia de reconocer la causa de la anemia hemolítica para dar un enfoque terapéutico preciso y dar adecuado consejo genético

Hereditary xerocytosis is a rare disorder caused by defects of red blood cell permeability that are characterized by hemolytic anemia of variable degree and iron overload. Diagnosis is usually late and confused with other hemolytic anemias, which can lead to procedural indications, such as splenectomy, contraindicated in these patients. We report the clinical, haematological, and molecular characteristics of two patients from two unrelated families affected by hereditary xerocytosis. Both patients had dehydrated erythrocytes with a high concentration of mean corpuscular hemoglobin, non-pathognomonic smears, markers of hemolysis and a resistant osmotic fragility curve. The diagnosis was confirmed by the sequencing of the PIEZO gene. We emphasize the importance of recognizing the cause of hemolytic anemia to give an accurate therapeutic approach and give adequate genetic counseling.

[Hereditary xerocytosis. Presentation of two pediatric cases]. / Xerocitosis hereditaria. Presentación de dos casos clínicos pediátricos.

Hereditary xerocytosis is a rare disorder caused by defects of red blood cell permeability that are characterized by hemolytic anemia of variable degree and iron overload. Diagnosis is usually late and confused with other hemolytic anemias, which can lead to procedural indications, such as splenectomy, contraindicated in these patients. We report the clinical, haematological, and molecular characteristics of two patients from two unrelated families affected by hereditary xerocytosis. Both patients had dehydrated erythrocytes with a high concentration of mean corpuscular hemoglobin, non-pathognomonic smears, markers of hemolysis and a resistant osmotic fragility curve. The diagnosis was confirmed by the sequencing of the PIEZO gene. We emphasize the importance of recognizing the cause of hemolytic anemia to give an accurate therapeutic approach and give adequate genetic counseling.

La xerocitosis hereditaria es un desorden poco frecuente causado por defectos en la permeabilidad eritrocitaria, que se caracteriza por anemia hemolítica de gravedad variable y sobrecarga de hierro. El diagnóstico suele ser tardío y confundirse con otras anemias hemolíticas, lo que puede llevar a indicaciones de procedimientos, como la esplenectomía, contraindicados en estos pacientes. Se reportan las características clínicas, hematológicas y moleculares de dos pacientes pediátricos no relacionados con diagnóstico de xerocitosis hereditaria. Ambos presentaban eritrocitos deshidratados con alta concentración de hemoglobina corpuscular media, frotis no patognomónico, marcadores de hemólisis y una curva de fragilidad osmótica resistente. El diagnóstico se confirmó por la secuenciación del gen PIEZO. Se resalta la importancia de reconocer la causa de la anemia hemolítica para dar un enfoque terapéutico preciso y dar adecuado consejo genético.

Caracterización fenotípica y genotipica de la deficiencia de glucosa-6-fosfato deshidrogenasa en Argentina: Estudio retrospectivo y descriptivo / Phenotypic and genotypic characterization of glucose-6-phosphate dehydrogenase deficiency in Argentina: Retrospective and descriptive study

La deficiencia de glucosa-6-fosfato deshidrogenasa es la enzimopatía eritrocitaria causada por mutaciones en el gen G6PD, cuya herencia está ligada al cromosoma X. Se analizan las características clínicas y de laboratorio de 24 individuos con deficiencia de G6PD durante 25 años. La edad mediana al momento del diagnóstico fue 10,2 años (rango: 0,6-56,4). El 54,2 % de los pacientes fueron asintomáticos, mientras que el 25 % presentó anemia hemolítica crónica no esferocítica; el 12,5 %, ictericia neonatal y anemia hemolítica posinfecciones, y el 8,3 %, anemia hemolítica aguda pos ingesta de habas. Los 24 pacientes estudiados presentaron variantes descritas previamente en la literatura. Las características clínicas observadas estuvieron acordes con las variantes encontradas. Veintiuna mujeres, pertenecientes a la rama materna de los individuos afectados, pudieron ser identificadas por biología molecular como portadoras de la deficiencia, por lo que recibieron el consejo genético correspondiente.

Glucose-6-phosphate dehydrogenase deficiency is an erythrocyte enzyme disorder caused by mutations in the G6PD gene, which has an X-linked inheritance. Here we analyze the clinical and laboratory characteristics of 24 subjects with G6PD deficiency over 25 years. Their median age at diagnosis was 10.2 years (range: 0.6-56.4). No symptoms were observed in 54.2 % of patients, whereas 25 % had chronic non-spherocytic hemolytic anemia; 12.5 %, neonatal jaundice and postinfectious hemolytic anemia; and 8.3 %, acute hemolytic anemia after ingestion of fava beans. The 24 studied patients had variants that had been previously described in the bibliography. The clinical characteristics observed here were consistent with the variants found. A total of 21 women from the maternal line of affected subjects were identified as deficiency carriers using molecular biology techniques, so they received the corresponding genetic counseling.

Phenotypic and genotypic characterization of glucose-6-phosphate dehydrogenase deficiency in Argentina. Retrospective and descriptive study. / Caracterización fenotípica y genotipica de la deficiencia de glucosa-6-fosfato deshidrogenasa en Argentina. Estudio retrospectivo y descriptivo.

Glucose-6-phosphate dehydrogenase deficiency is an erythrocyte enzyme disorder caused by mutations in the G6PD gene, which has an X-linked inheritance. Here we analyze the clinical and laboratory characteristics of 24 subjects with G6PD deficiency over 25 years. Their median age at diagnosis was 10.2 years (range: 0.6-56.4). No symptoms were observed in 54.2 % of patients, whereas 25 % had chronic non-spherocytic hemolytic anemia; 12.5 %, neonatal jaundice and postinfectious hemolytic anemia; and 8.3 %, acute hemolytic anemia after ingestion of fava beans. The 24 studied patients had variants that had been previously described in the bibliography. The clinical characteristics observed here were consistent with the variants found. A total of 21 women from the maternal line of affected subjects were identified as deficiency carriers using molecular biology techniques, so they received the corresponding genetic counseling.

La deficiencia de glucosa-6-fosfato deshidrogenasa es la enzimopatía eritrocitaria causada por mutaciones en el gen G6PD, cuya herencia está ligada al cromosoma X. Se analizan las características clínicas y de laboratorio de 24 individuos con deficiencia de G6PD durante 25 años. La edad mediana al momento del diagnóstico fue 10,2 años (rango: 0,6-56,4). El 54,2 % de los pacientes fueron asintomáticos, mientras que el 25 % presentó anemia hemolítica crónica no esferocítica; el 12,5 %, ictericia neonatal y anemia hemolítica posinfecciones, y el 8,3 %, anemia hemolítica aguda pos ingesta de habas. Los 24 pacientes estudiados presentaron variantes descritas previamente en la literatura. Las características clínicas observadas estuvieron acordes con las variantes encontradas. Veintiuna mujeres, pertenecientes a la rama materna de los individuos afectados, pudieron ser identificadas por biología molecular como portadoras de la deficiencia, por lo que recibieron el consejo genético correspondiente.

Técnicas convencionales aplicadas al diagnóstico de las hemoglobinopatías / Conventional techniques applied to the diagnosis of hemoglobinopathies / Técnicas convencionais aplicadas ao diagnóstico das hemoglobinopatias

Las hemoglobinopatías son trastornos hereditarios debidos a una gran variedad de defectos que afectan a los genes de globina. El diagnóstico de las hemoglobinopatías resulta de una combinación de estudios clínicos, pruebas de laboratorio y estudio familiar. Las herramientas básicas incluyen hemograma, hemoglobina e índices eritrocitarios (VCM, HCM), morfología de los eritrocitos, recuento de reticulocitos y perfil de hierro. Las determinaciones complementarias son electroforesis de hemoglobina que permite separar las diferentes variantes de acuerdo con su carga eléctrica, cuantificación de hemoglobina A2 (HbA2), Fetal (Hb F), pruebas de solubilidad hemoglobínica y falciformación. Otras técnicas se basan en propiedades fisicoquímicas como la estabilidad de la hemoglobina para detección de variantes inestables. En la práctica las pruebas más útiles son las que permiten detectar la presencia de hemoglobinopatías, como ocurre con la hemoglobina S dejando para laboratorios especializados aquellos procedimientos para identificar la mutación. La correcta detección de los portadores de las diferentes hemoglobinopatías tiene como finalidad dar un consejo genético adecuado sobre la forma de herencia, el riesgo de tener hijos afectados con las formas graves de la enfermedad y evitar tratamientos innecesarios. El diagnóstico molecular se reserva para la alfa talasemia, para cuadros con genotipos complejos, estudios prenatales o epidemiológicos.

Hemoglobinopathies are hereditary syndromes determined by a large variety of globin gene defects. Hemoglobinopathy diagnosis results from the combination of clinical orientation, laboratory tests and family studies. Basic tools include complete blood cell count, red blood cell count, hemoglobin quantification and red cell indices (MCV, MCH), blood film examination, reticulocyte count and iron status. Complementary determinations are hemoglobin electrophoresis, which enables the separation of the different hemoglobin variants according to their electrical charge, A2, and Fetal hemoglobin quantification, hemoglobin solubility and sickling test for Hb S diagnosis. Other techniques are based on physicochemical properties such as stability of hemoglobin for detection of unstable variants. In practice, the most useful tests are those that enable the detection of hemoglobinopathies, such as hemoglobin S, and the identification of the genetic defects is referred to specialized laboratories. The correct detection of the carriers of the different hemoglobinopathies is intended to give adequate genetic advice on the form of inheritance and the risk of having affected children with the severe forms of the disease and to avoid unnecessary treatments. Molecular diagnosis is reserved to a thalassemia complex genotypes, prenatal o epidemiological studies.

As hemoglobinopatias são distúrbios hereditários resultantes de uma grande variedade de defeitos que afetam os genes de globina. O diagnóstico das hemoglobinopatias decorre de uma combinação de estudos clínicos, provas de laboratório e estudo familiar. As ferramentas básicas incluem hemograma, hemoglobina e índices eritrocitários (VCM, HCM), morfologia dos eritrócitos, contagem de reticulócitos e perfil de ferro. As determinações complementares são eletroforese de hemoglobina que permite separar as diferentes variantes, de acordo com sua carga elétrica, quantificação de hemoglobina A2 (HbA2), Fetal (Hb F), provas de solubilidade hemoglobínica e falciformação. Outras técnicas baseiam-se em propriedades fisicoquímicas como a estabilidade da hemoglobina para detecção de variantes instáveis. Na prática, as provas mais úteis são as que permitem detectar a presença de hemoglobinopatias, como acontece com a hemoglobina S deixando para laboratórios especializados aqueles procedimentos para identificar a mutação. Detectar corretamente os portadores das diferentes hemoglobinopatías visa a dar um conselho genético adequado sobre a forma de herança, o risco de ter filhos afetados com as formas graves da doença e evitar tratamentos desnecessários. O diagnóstico molecular se reserva para a alfa talassemia, para quadros com genótipos complexos, estudos pré-natais ou epidemiológicos.

Hemoglobinas inestables / Unstable hemoglobins / Hemoglobinas instáveis

Las variantes estructurales de hemoglobina son, en su mayoría, el resultado de sustituciones puntuales de aminoácidos en una de las cadenas de globina. En muchos casos, estas hemoglobinopatías son inocuas, mientras que en otros determinan alteraciones en la estabilidad y función de la hemoglobina, ocasionando manifestaciones clínicas de severidad variable. En las hemoglobinas inestables, las alteraciones disminuyen la solubilidad, y así facilitan la formación de complejos de hemoglobina precipitada y desnaturalizada (Cuerpos de Heinz) que ocasionan el daño de la membrana y finalmente la destrucción prematura de los eritrocitos. Representan una rara etiología de anemia hemolítica congénita. Hasta la actualidad se han descrito alrededor de 150 hemoglobinas inestables diferentes, la mayoría de las cuales ocasionan hemólisis crónica, exacerbada por infecciones o la ingesta de medicamentos. Su diagnóstico puede ser difícil, sobre todo en pacientes no esplenectomizados. Su identificación requiere inicialmente de la sospecha clínica, pero dado que las pruebas básicas de laboratorio pueden no ser concluyentes e inducir un diagnóstico erróneo, el estudio molecular será necesario para la confirmación.

The structural hemoglobin variants mostly result from single amino-acid substitutions in globin chains. In many cases these are innocuous, but in others they may alter the stability or functional properties of hemoglobin, leading to clinical manifestations of variable severity. They represent a rare cause of congenital hemolytic anemia. Unstable hemoglobins cause alterations that reduce solubility, with increased tendency to Heinz Body formation, damaging red blood cell membrane and finally the premature destruction of red blood cells. Up to 150 unstable hemoglobins have been described; most of them cause chronic hemolytic anemia, aggravated by infections and or drugs. Diagnosis can be difficult, especially in non-splenectomized patients. Initially, identification requires a high degree of clinical suspicion, but due to the fact that basic laboratory tests might be inconclusive, molecular analysis is necessary for final confirmation.

As variantes estruturais de hemoglobina são, em sua maioria, o resultado de substituições pontuais de aminoácidos numa das cadeias de globina. Em muitos casos, estas hemoglobinopatias são inócuas, ao passo que em outros determinam alterações na estabilidade e função da hemoglobina, produzindo manifestações clínicas de severidade variável. Nas hemoglobinas instáveis, as alterações diminuem a solubilidade, facilitando a formação de complexos de hemoglobina precipitada e desnaturalizada (Corpos de Heinz) que ocasionam o dano da membrana e finalmente a destruição prematura dos eritrócitos. Representam uma rara etiologia de anemia hemolítica congênita. Até a atualidade foram descritas aproximadamente 150 hemoglobinas instáveis diferentes, a maioria das quais produzem hemólise crônica, exacerbada por infecções ou pela ingestão de medicamentos. Seu diagnóstico pode ser difícil, principalmente em pacientes não esplenectomizados. Sua identificação requer inicialmente da suspeita clínica, mas devido a que as provas básicas de laboratório podem não ser concluintes e induzir um diagnóstico errado, o estudo molecular será necessário para a confirmação.

Two novel DNA variants associated with glucose-6-phosphate dehydrogenase deficiency found in Argentine pediatric patients.

OBJECTIVE: The enzyme glucose-6-phosphate dehydrogenase (G6PD) catalyses the first step in the pentose phosphate pathway, producing nicotinamide adenine dinucleotide phosphate (NADPH). NADPH plays a crucial role in preventing oxidative damage to proteins and other molecules in cells, mostly red blood cells. G6PD deficiency has an x-linked pattern of inheritance in which hemizygous males are deficient, while females may or may not be deficient depending on the number of affected alleles. We report two novel DNA variants in the G6PD gene detected in two male probands with chronic nonspherocytic hemolytic anemia (CNSHA), who were referred for hematological evaluation. METHOD: Probands and their relatives underwent clinical, biochemical, and molecular assessment. RESULTS: Two novel DNA variants, c.995C>T and c.1226C>A, were found in this study. At the protein level, they produce the substitution of Ser332Phe and Pro409Gln, respectively. These DNA variants were analyzed in the female relatives of probands for genetic counseling. CONCLUSIONS: The novel DNA variants were classified as class I based on the clinical, biochemical, and molecular evaluations performed.

Experience with four consecutive BFM-based protocols for treatment of childhood with non-promyelocytic acute myeloblastic leukemia in Argentina.

Childhood acute myeloid leukemia (AML) achieves event-free-survival (EFS) rates of ∼50%. Double induction phase has been introduced for improving these results. Four consecutive protocols for AML treatment were evaluated to assess the impact of the addition of a second induction course in our setting. From January 1990 to January 2014, 307 evaluable AML patients were accrued. They were classified into low-risk (LR) and high-risk (HR) according to cytogenetic/molecular findings and response on day 15. The first two studies administered one induction cycle while the latter two protocols administered double induction. Relapse was the most frequent event and early-deaths were reduced by 50% in the last protocol. Statistically significant differences were observed when comparing EFS in LR and HR groups. Patients from both risk-groups who received double induction achieved significantly better outcome. EFS improved in protocols with double induction and early-deaths rate was decreased. Cytogenetic/molecular features and early-response were confirmed as prognostic factors.

Cytogenetic and Molecular Findings in Children with Acute Lymphoblastic Leukemia: Experience of a Single Institution in Argentina.

The purpose of the current study was to evaluate the cytogenetic findings in 1,057 children with acute lymphoblastic leukemia (ALL) referred to the cytogenetics laboratory at the Hospital de Pediatría Dr. Juan P. Garrahan, between 1991 and 2014. Chromosomal abnormalities were evaluated by G-banding and FISH. Since December 2002, RT-PCR determinations were systematically carried out for BCR-ABL1, KMT2A-AFF1, ETV6-RUNX1, and TCF3-PBX1 rearrangements in children, adding KMT2A-MLLT3 and KMT2A-MLLT1 in infants. The percentage of abnormalities detected by cytogenetics was 70.1%. Four novel abnormalities, t(2;8)(p11.2;p22), inv(4)(p16q25), t(1;7)(q25;q32), and t(5;6)(q21;q21), were found in this cohort. We compared cytogenetic and RT-PCR results for BCR-ABL1, KMT2A-AFF1 and TCF3-PBX1 rearrangements in 497 children evaluated by both methods. The results were highly concordant (p < 0.7), and interestingly, FISH was relevant to confirm G-banding findings that were discordant with RT-PCR studies. This study showed the importance of performing G-banding, FISH and RT-PCR simultaneously to improve the detection of chromosomal abnormalities considering their important value in the diagnosis and prognosis of childhood ALL patients. Finally, to the best of our knowledge, this is the first series of cytogenetic findings in children with ALL reported in Argentina.

[Hemoglobin Woodville associated with double point mutation in the gene of glucose-6-phosphate dehydrogenase]. / Hemoglobina Woodville asociada a una doble mutación puntual en el gen de la glucosa-6-fosfato deshidrogenasa.

The co-inheritance of erythrocyte defects, hemoglobinopathies, enzymopathies, and membranopathies is not an unusual event. For the diagnosis, a laboratory strategy, including screening and confirmatory tests, additional to molecular characterization, was designed. As the result of this approach, a 24-year-old man carrying a hemoglobinopathy (Hemoglobin Woodville) and an enzymopathy (glucose-6-phosphate dehydrogenase deficiency) was identified. In the heterozygous state hemoglobin Woodville, is asymptomatic, and homozygous or double heterozygous individuals have not been reported thus far. On the other hand, previously described double point mutation in the gene for glucose-6-phosphate dehydrogenase c. [202G>A; 376A>G], p. [Val 68Met; Asn126Asp], causes hemolysis of varying severity after food or drug intake or infections. This case highlights the importance of the methodology carried out for the diagnosis, treatment, and proper genetic counseling.

Beta talasemia intermedia: características clínicas y estudio molecular. Serie de casos clínicos / Beta thalassemia intermedia: clinical characteristics and molecular analysis. Case series

La beta talasemia intermedia es una hemoglobinopatía de amplio espectro clínico, que surge de la presencia de una o dos mutaciones en el gen HBB, asociada a modificadores genéticos secundarios y/o terciarios. Analizamos las características clínicas y de laboratorio de 29 pacientes con beta talasemia intermedia, evaluados en un período de 23 años. La edad mediana fue de 10,8 años (rango: 0,34-60,4). El 100% de los pacientes mostró anemia microcítica hipocrómica, y solo el 17,2% presentó esplenomegalia y requerimiento transfusional esporádico. El análisis molecular de los pacientes detectó 3 con los dos genes HBB afectados; 2 con un gen HBB afectado y genes alfa cuadriplicados/triplicados; 23 con un gen HBB afectado y genes alfα triplicados; y 1 con dos genes HBB afectados y polimorfismos de genes gama. La correcta identificación de estos pacientes aseguró un adecuado consejo genético y la implementación de controles clínicos regulares.(AU)

Beta thalassemiaintermediaisaquantitative haemoglobinopathy covering a broad clinical spectrum, that results from the presence of one or two HBB gene mutations associated with secondary and/or tertiary genetic modifiers. We analyze the clinical and laboratory features of 29 patients with beta thalassemia intermedia, assessed over a period of 23 years.(AU)

Beta talasemia intermedia: características clínicas y estudio molecular. Serie de casos clínicos / Beta thalassemia intermedia: clinical characteristics and molecular analysis. Case series

La beta talasemia intermedia es una hemoglobinopatía de amplio espectro clínico, que surge de la presencia de una o dos mutaciones en el gen HBB, asociada a modificadores genéticos secundarios y/o terciarios. Analizamos las características clínicas y de laboratorio de 29 pacientes con beta talasemia intermedia, evaluados en un período de 23 años. La edad mediana fue de 10,8 años (rango: 0,34-60,4). El 100% de los pacientes mostró anemia microcítica hipocrómica, y solo el 17,2% presentó esplenomegalia y requerimiento transfusional esporádico. El análisis molecular de los pacientes detectó 3 con los dos genes HBB afectados; 2 con un gen HBB afectado y genes alfa cuadriplicados/triplicados; 23 con un gen HBB afectado y genes alfα triplicados; y 1 con dos genes HBB afectados y polimorfismos de genes gama. La correcta identificación de estos pacientes aseguró un adecuado consejo genético y la implementación de controles clínicos regulares.

Beta thalassemiaintermediaisaquantitative haemoglobinopathy covering a broad clinical spectrum, that results from the presence of one or two HBB gene mutations associated with secondary and/or tertiary genetic modifiers. We analyze the clinical and laboratory features of 29 patients with beta thalassemia intermedia, assessed over a period of 23 years. Median age was 10.8 years (range: 0.34-60.4). Hypochromic microcytic anemia was seen in 100% of the patients, while only 17.2% had splenomegaly and occasional transfusion requirement. The molecular analysis of patients detected: 3 with two HBB affected genes; 2 with one HBB affected gene and alpha quadruplicate/triplicate genes; 23 with one HBBaffected gene and alpha triplicate genes and 1 with two HBB affected genes and polymorphisms of gamma genes. The adequate identification of these patients enables us to give appropriate genetic counseling and implementation of regular clinical follow up

[Beta thalassemia intermedia: clinical characteristics and molecular analysis. Case series]. / Beta talasemia intermedia: características clínicas y estudio molecular. Serie de casos clínicos.

Beta thalassemia intermedia is a quantitative haemoglobinopathy covering a broad clinical spectrum, that results from the presence of one or two HBB gene mutations associated with secondary and/or tertiary genetic modifiers. We analyze the clinical and laboratory features of 29 patients with beta thalassemia intermedia, assessed over a period of 23 years. Median age was 10.8 years (range: 0.34-60.4). Hypochromic microcytic anemia was seen in 100% of the patients, while only 17.2% had splenomegaly and occasional transfusion requirement. The molecular analysis of patients detected: 3 with two HBB affected genes; 2 with one HBB affected gene and alpha quadruplicate/triplicate genes; 23 with one HBB affected gene and alpha triplicate genes and 1 with two HBB affected genes and polymorphisms of gamma genes. The adequate identification of these patients enables us to give appropriate genetic counseling and implementation of regular clinical follow up.

A new ß(0) frameshift mutation, HBB: c.44delT (p.Leu14ArgfsX5), identified in an Argentinean family associated with secondary genetic modifiers of ß-thalassemia.

ß-Thalassemia intermedia (ß-TI) patients present with a wide spectrum of phenotypes depending on the presence of primary, secondary, and tertiary genetic modifiers which modulate, by different mechanisms, the degree of imbalance between α and ß chains. Here we describe a new ß(0) frameshift mutation, HBB: c.44delT (p.Leu14ArgfsX5), identified in four members of a family, associated with secondary genetic modifiers in three of them. The different genotype present in this family was suspected after hematological analysis and thorough observation of blood smears highlighting their importance in the identification of ß-TI patients among members of the same family.