Significantly elevated foetal haemoglobin levels in individuals with glucose 6-phosphate dehydrogenase disease and/or sickle cell trait: a cross-sectional study in Cape Coast, Ghana

Abstract: BackgroundPreviously published data have demonstrated that sickle red blood cells produce twice as much reactive oxygen species (ROS) suggesting that co-inheritance of sickle cell disease (SCD) and glucose 6-phosphate dehydrogenase (G6PD) enzymopathy could lead to more severe anaemia during sickling crises. Elevated foetal haemoglobin (Hb F) levels have been shown to have positive modulatory effects on sickling crises and disease outcomes. This study sought to assess how inheritance of G6PD enzymopathy affects… Show more

“…In summary, G6PDd and SCD/SCT are the most prevalent genetic polymorphisms in malaria-endemic areas and are characterized by high red blood cell turnover [2,[21][22][23]. In Ghana, a malaria-endemic area, G6PDd and SCT co-inheritance is common, with a prevalence rate of 7% among blood donors [24]. Despite that, the co-occurrence of G6PDd (characterized by the RBCs' inability to handle oxidative stress) with a hemoglobinopathy such as SCD or SCT can predispose individuals to enhanced oxidative stress, resulting in increased hemolysis and adverse events.…”

Co-Occurrence of G6PD Deficiency and SCT among Pregnant Women Exposed to Infectious Diseases

“…In summary, G6PDd and SCD/SCT are the most prevalent genetic polymorphisms in malaria-endemic areas and are characterized by high red blood cell turnover [2,[21][22][23]. In Ghana, a malaria-endemic area, G6PDd and SCT co-inheritance is common, with a prevalence rate of 7% among blood donors [24]. Despite that, the co-occurrence of G6PDd (characterized by the RBCs' inability to handle oxidative stress) with a hemoglobinopathy such as SCD or SCT can predispose individuals to enhanced oxidative stress, resulting in increased hemolysis and adverse events.…”

Co-Occurrence of G6PD Deficiency and SCT among Pregnant Women Exposed to Infectious Diseases