Summary. We have identified three individuals of Greek or Greek Cypriot origin with an atypical form of HbH disease characterized by a severe hypochromic microcytic anaemia associated with relatively small amounts of HbH in the peripheral blood. Molecular analysis has shown that each is a compound heterozygote for a previously described mutation affecting the poly A addition signal (AATAAA→ÁTAAG) and a previously undescribed mutation involving a T→C transition in codon 29 of the α2 gene causing a leucine→pro‐line substitution. Although this mutation would be expected to produce an unstable haemoglobin and hence a haemolytic anaemia, simple heterozygotes for the α29Leu→Pro mutation have the phenotype of α‐thalassaemia trait.
PGD represents an alternative within prenatal diagnosis services, which avoids terminating affected on-going pregnancies. In Greece, prevention programmes for haemoglobinopathies, including the option of prenatal diagnosis, are well established. Following optimization of a single-cell genotyping strategy (designed to be applicable for the majority of beta-thalassaemia major or sickle thalassaemia genotype interactions) along with close collaboration with an IVF unit, we integrated the option of PGD for at-risk couples with a problematic reproductive history. A total of 59 couples requesting PGD were counselled, of whom 41 initiated 63 PGD cycles. Following standard assisted reproduction treatment for oocyte retrieval, 20 cycles were cancelled (too few oocytes and/or poor quality embryos), but in 43 cycles single blastomeres were biopsied from 3 day embryos and genotyped (total 302). Diagnosis was achieved for 236 embryos, and 100 of 125 unaffected embryos were transferred. Sixteen pregnancies were established, although six were lost within the first trimester. Ten pregnancies underwent second trimester prenatal diagnosis, with nine pregnancies (13 babies: six singletons, two twins and one triplet) confirmed unaffected, although one singleton was a PGD misdiagnosis and terminated. The triplet pregnancy was selectively reduced to twins, and nine pregnancies went to term, with 12 healthy babies born. This report highlights advantages, limitations and approaches towards improvement when incorporating PGD within genetic services for a common recessive disease.
The clinical, haematological, biosynthetic and molecular data of three Greek haemoglobin H (HbH) disease patients with a distinctive clinical phenotype are described. During infancy all three patients had unusually severe clinical manifestations for HbH disease, with anaemia necessitating blood transfusions, signs of bone changes, growth impairment, and splenomegaly. Molecular analysis identified a rare alpha-thalassaemia genotype (--Med/ alpha Ic alpha). Splenectomy resulted in marked amelioration of the clinical signs; post splenectomy all three patients preserve adequate haemoglobin levels (9-10 g/dl) with growth restored to normal. Despite the initial severe clinical phenotype in these patients, our experience indicates that splenectomy modifies the clinical course to that of mild thalassaemia intermedia. This observation should be considered carefully when giving genetic counselling to families carrying the rare Hb Icaria mutation and an alpha zero thalassaemia mutation.
Abstractβ-Thalassemia is uncommon (0.5%) in the Romanian population, but it must be considered in the differential diagnosis of hypochromic anemia. The molecular characterization of β-thalassemia is absolutely necessary for molecular diagnosis, as well as any genetic epidemiological study in this region. Molecular analyses consist of mutation detection by molecular scanning of β-globin gene. This gene has 3 exons and 2 introns, involved in β-thalassemic pathogenesis. Clinical application of DNA analysis on β-thalassemic chromosomes allowed characterization of 29 persons with different β-thalassemia mutations among 58 patients with anemia. The experimental strategy was based on sequential PCR amplification of most of the β-globin gene and running on denaturing gradient gel electrophoresis of amplification products. Definitive characterization of mutations in samples identified with shifted DGGE patterns was performed ARMS-PCR and/or PCR-restriction enzyme analysis methods. Eight different β-thalassemia alleles were identified, the most common being IVS I-110 (G-A) and cd 39 (C-T). Comparison of overall frequency of mutations in the neighboring countries, shows that these results are in the frame of overall distribution of these mutations in Mediterranean area, especially in Greece and in Bulgaria. Molecular diagnosis is useful for differentiating mild from severe alleles, for genetic counseling, as well as for mutation definition in carriers, identified by hematological analysis necessary for prenatal testing and genetic counseling.
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