AI Article Synopsis
- Thalassemias are genetic disorders that affect how our bodies make certain parts of blood called globin chains, and in Iraq, a specific type called β-thalassemia is more common.
- A study from a hospital in Erbil looked at 137 cases of β-thalassemia and 97 cases of α-thalassemia, finding some patients with rare genetic changes that weren’t previously known.
- The researchers used advanced tests to understand these changes better, which showed that thalassemia has different types in that region, highlighting the need for better ways to find and diagnose these rare genetic issues.
Article Abstract
Background: Thalassemias are genetic disorders of globin chain synthesis. In Iraq, β-thalassemia is more prevalent than α-thalassemia. This study identifies two unpredicted globin gene mutations, a rare α-globin gene mutation (Hb SKMC) and a novel γδβ-thalassemia deletion.
Methods: Over 2 years, the Genetics unit at PAR hospital in Erbil, northern Iraq processed 137 β-thalassemia and 97 α-thalassemia genetic testing requests. Three symptomatic thalassemia cases with unreported genotypes were identified. Proband-1α and proband-2α had Hb H disease, while proband-1β had severe transfusion-dependent β-thalassemia (TDT). Molecular studies included multiplex PCR, reverse hybridization, multiplex ligation-dependent probe amplification (MLPA), and globin gene sequencing.
Results: The α-thalassemia probands exhibited moderate microcytic hypochromic anemia with irregular transfusions and splenomegaly. Hb H disease was confirmed by positive Hb H tests and high-performance liquid chromatography (HPLC). Molecular analysis revealed heterozygous - deletion in proband-1α and α2 mutation in proband-2α. Sequencing identified the Hb SKMC (:c.283_300+3dup) mutation in both probands. The β-thalassemia proband showed anemia and regular transfusions. Molecular studies detected the IVS1.110 G>A mutation and a novel γδβ-thalassemia deletion in compound heterozygous form. The maternal sample showed the IVS1.110 G>A mutation, and MLPA confirmed the γδβ-thalassemia deletion in the paternal sample.
Conclusion: These findings highlight the genetic diversity of thalassemias in the region and emphasize the importance of advanced molecular diagnostics in detecting rare mutations.
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| http://dx.doi.org/10.1080/16078454.2024.2399356 | DOI Listing |
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