A Rare Case of Homozygous Hemoglobin G-Philadelphia & Alpha Thalassemia

Abstract

Abstract Introduction/Objective Hemoglobin (Hb) G-Philadelphia (GPh) is an alpha chain gene variant caused by a missense mutation resulting in a change from Glu to Asp at position 68. This change leads to alterations in the Hb structure and oxygen affinity. The mutation is inherited in an autosomal codominant pattern allowing for an asymptomatic carrier state. While the most common alpha chain variant, GPh heterozygosity is still infrequent, estimated at 1:5000 in African Americans. In African Americans, GPh is frequently linked to an alpha thalassemia deletion. On its own it is considered a benign variant that does not result in significant health issues. Homozygous HbGPh frequency is estimated at 1 in 25 million. Methods/Case Report A postpartum woman in her 4th decade of life was found to have a Hb of 10.8 and a mean corpuscular volume of 74. Initial work up included Hb electrophoresis that quantified HbA at 0%, Hb F at 0%, HbA2 at 0%, and 2 Hb variants representing 96.1% and 3.8% of the total globin. The major Hb variant migrated in the D or G position by alkaline and acid gel Hb electrophoresis. The minor variant was consistent with HbG2. Due to this abnormal Hb electrophoresis, a sample was sent out for a Hb evaluation reflexive cascade (HERC). HERC analysis by high-performance liquid chromatography and capillary gel electrophoresis found 99.9% of Hb consistent with the alpha chain variant HbG. Analysis of the alpha globin gene region revealed 2 copies of an alpha globin gene deletion that was interpreted as alpha-thal trait (-a/-a). This result is consistent with homozygous alpha-thal-2 and homozygous HbGPh (alpha^G/thal + alpha^G/thal). Results (if a Case Study enter NA) NA Conclusion Alpha^G/thal + alpha^G/thal presents a unique and complex challenge for diagnosis due to its rarity and because HbG2 is not always visualized by alkaline gel electrophoresis. The presence of a Hb G or D variant, a HbG2 variant, and the lack of both HbA and HbA2 are key electrophoretic findings. Clinically, alpha^G/thal + alpha^G/thal behaves essentially like a homozygous alpha-thal-2 trait with persistent microcytosis and erythrocytosis. Thus, co- inheritance of the alpha-thal trait will be suggested by a thalassemic complete blood count pattern.