Reference ranges for the total and differential leucocyte counts were determined from venous blood collected at 2, 5 and 13 months of age from a cohort of 112 healthy children of north European ancestry. At 2, 5 and 13 months, the ranges for neutrophils were found to be 0.7-4.7, 1.1-5.6 and 1.0-7.6 x 109/l, and for lymphocytes 3.3-10.5, 3.4-11.3 and 3.5-10.4 x 109/l, respectively. The upper limits for monocytes at each age were 1.2, 1.2 and 0.91 x 109/l, and for eosinophils 0.84, 1.0 and 0.88 x 109/l, respectively. Mean counts for all cell types, except monocytes, increased between 2 and 5 months of age. There was little change in mean counts between 5 and 13 months. Statistically significant correlations existed between the numbers of each cell type at 2 months of age, and were still present at 13 months between monocytes and each of the granulocyte series and between basophils and all other cell types. By comparison with older data these findings indicate a lower reference limit for neutrophils at 2 months of age, and a narrower range for this cell type at both 2 and 5 months of age. Reference ranges for lymphocytes and eosinophils are wider than indicated by some previous studies.
An adult-derived RDW reference limit has utility in screening for iron deficiency at the age of 13 months. The incidence of non-anaemic iron deficiency in this group was 52.8%.
The clinical usefulness of the measurement of red cell zinc protoporphyrin (ZPP), an indicator of iron-deficient erythropoiesis, was assessed in a group of UK children undergoing investigation for red cell microcytosis. Of 213 children studied, 136 had increased ZPP values. Of these, 86 also had reduced iron stores as indicated by serum ferritin concentration. The 50 children with increased ZPP and normal ferritin values could be divided into two main groups. One group comprised 28 children who had evidence of coexistent infection or inflammatory disease. The other included 21 children who had beta-thalassemia trait (n = 19) or disease (n = 2). Among the 77 children with normal ZPP values, 22 had reduced serum ferritin concentrations and 45 did not, nor did they have evidence of beta-thalassemia. Microcytosis in some of these children could have been due to alpha-thalassemia trait. Measurement of ZPP is a simple, quick, and relatively cheap method of confirming the presence of iron-deficient erythropoiesis even when inflammation makes serum ferritin measurements unreliable. It is not as sensitive as the ferritin assay to the early stages of iron deficiency, and its specificity is reduced by the occurrence of raised values in most children with beta-thalassemia trait. Where there is microcytosis, normal values, together with normal hemoglobin A2 and serum ferritin concentrations, are likely to indicate alpha-thalassemia trait.
Venous and skin puncture blood counts were compared in 80 paired samples from 33 children, aged 6 months to 14 years, and 10 adults. Significantly higher mean values for Hb, RBC, haematocrit and neutrophils were found in skin puncture blood in children whereas platelet values were slightly higher in venous blood. Similar results were found in adult samples. Only occasionally were differences likely to be of clinical importance. The excellent comparability of paired platelet counts, at variance to that found in some previous studies, indicates that skin puncture blood can be used for platelet estimation providing an appropriate counting method is used.
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