Physiologic Decline in Fetal Hemoglobin Parameters in Infants With Sickle Cell Disease

Abstract

Fetal hemoglobin (HbF) is an important determinant in the clinical severity of patients with sickle cell disease. The physiologic decline in HbF parameters in a cohort of infants with sickle cell disease was investigated. The percent HbF and F cells were quantitated, and the HbF per F cell was then calculated. One hundred thirty-eight blood samples from 44 infants with homozygous sickle cell anemia (HbSS) and 56 samples from 24 infants with sickle cell hemoglobin (HbSC) were studied. Infants with HbSS had a logarithmic decline in HbF parameters; at 24 months, the average HbF was 14.6%+/-7.3% and the % F cells was 64.7%+/-16.9%. The amount of HbF in each F cell (HbF per F cell) was <15 pg/cell, a suggested threshold for intracellular sickle polymerization, by age 12 months. Infants with HbSC had a more rapid decline: at 12 months the average % HbF was 12.2%+/-9.3%, the % F cells was 60.5%+/-18.7%, and the HbF per F cell was <10 pg/cell. By age 2 years, HbF parameters including the % HbF, % F cells, and the HbF per F cell decrease to levels insufficient to inhibit sickling. Pharmacologic intervention designed to enhance HbF production and prevent chronic organ damage should be considered during infancy.