AI Article Synopsis
- Prenatal exome sequencing (ES) successfully identified both fetal and maternal genetic diagnoses, revealing a shared pathogenic gamma globin variant in a fetus with unexplained anemia and a mother with sickle cell disease (SCD).
- The identified variant, HbF Mission Bay HBG2, is linked to various blood-related conditions, including cyanosis and hemolytic anemia, which generally emerge in infancy but can persist into adulthood.
- In this case, the mother's own symptoms from the variant, such as recurrent hypoxia and methemoglobinemia during pregnancy, occurred alongside the fetus's need for multiple blood transfusions and post-birth methemoglobinemia.
Article Abstract
Prenatal exome sequencing (ES) can establish rare genetic diagnoses in a fetus but may also lead to occult genetic diagnosis in a biological parent. We present a case of dual fetal and maternal diagnosis by prenatal ES, in a fetus with unexplained anemia and in a pregnant patient with sickle cell disease (SCD) and recurrent unexplained hypoxia. ES identified a novel, likely pathogenic gamma globin variant, HbF Mission Bay HBG2 (c.86T > A, p.Leu29Gln), in both the fetus and mother. Deleterious variants in HBG2 have been associated with cyanosis, hypoxia, methemoglobinemia, and hemolytic anemia that are typically confined to infancy. In the pregnant patient who herself had a separate diagnosis of SCD, the HBG2 variant manifested with hypoxia as an infant herself, recurrent hypoxia in adulthood, and methemoglobinemia during pregnancy due to persistence of HbF. This same variant manifested in the fetus as anemia requiring multiple in utero transfusions as well as neonatal methemoglobinemia after birth.
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Article Synopsis
- Prenatal exome sequencing (ES) successfully identified both fetal and maternal genetic diagnoses, revealing a shared pathogenic gamma globin variant in a fetus with unexplained anemia and a mother with sickle cell disease (SCD).
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