Moreover, our results showed that the hematological parameters in normal children may be conditioned by the clinically occult coinheritance of mild α-thalassemia alleles as already described in the adult population while microcytosis and hypocromia in children without iron deficiency should suggest the coexistence of two α-globin defects.
This is especially true for resource-constrained settings where iron deficiency is widespread and molecular confirmatory tests for borderline low HbA2 values may be unavailable.
In the second case, the wife presented with a mild thalassemic picture, normal HbA(2), elevated HbF (18.5%) and a beta/alpha globin chain synthesis ratio of 0.62, without iron deficiency or any known beta-thalassemia defect, while the husband was a simple carrier of the common Mediterranean IVS-I-110 (HBB:c.93-21 G>A) mutation.
Children were divided into three groups: (A) healthy children, (B) with storage iron deficiency (serum ferritin < 12 microg/l) and (C) Beta trait carriers (HbA2 > 3.3).
Although iron deficiency appeared to be associated with a reduction in HbA2 quantity in the patient with heterozygous beta-thalassemia, the level of HbA2 did not fall below the range characteristic of beta-thalassemia.
DNA analysis of cord blood taken from the hospital where the infants were born showed that the frequency of the single alpha-globin gene deletion type (-alpha 3.7) of alpha-thalassaemia is 0.13 in the bedouin population of Western Saudi Arabia. alpha-Thalassaemia probably accounts for much of the anaemia previously thought to be due to iron deficiency in Saudi infants.
The presence of iron deficiency in beta-thalassaemia carriers did not reduce their HbA2 level below the diagnostic range in this study.(ABSTRACT TRUNCATED AT 250 WORDS)