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Comparison of haematology and biochemistry parameters in healthy South African infants with laboratory reference intervals.

Comparison of haematology and biochemistry parameters in healthy South African infants with laboratory reference intervals.
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Schmidt B, Tameris M, Geldenhuys H, Luabeya A, Bunyasi E, Hawkridge T, McClain JB, Mahomed H, Scriba TJ, McShane H, Hatherill M,


Schmidt B, Tameris M, Geldenhuys H, Luabeya A, Bunyasi E, Hawkridge T, McClain JB, Mahomed H, Scriba TJ, McShane H, Hatherill M, (click to view)

Schmidt B, Tameris M, Geldenhuys H, Luabeya A, Bunyasi E, Hawkridge T, McClain JB, Mahomed H, Scriba TJ, McShane H, Hatherill M,

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Tropical medicine & international health : TM & IH 2017 11 15() doi 10.1111/tmi.13009

Abstract
OBJECTIVE
Paediatric laboratory reference intervals used in Africa and Asia may be derived from historical intervals of predominantly Caucasian infants in Europe or North America. These intervals may therefore not be compatible with the range of normality for developing country populations. We aimed to compare haematology and biochemistry parameters in healthy South African infants with local laboratory reference intervals.

METHODS
We compared the baseline haematology and biochemistry results of 634 (316 male and 318 female) HIV-unexposed infants, aged 3-6 months, living in a rural area of the Western Cape Province, South Africa, against laboratory reference intervals supplied by the South African National Health Laboratory Services (NHLS). We calculated the percentage of observed values out of bound (in terms of lower and upper limits) compared to laboratory reference intervals.

RESULTS
Of the 634 healthy infants screened 316 (49.84%) were male and 318 (50.16%) female. A majority (91.05%) had platelet counts above the laboratory reference interval upper limit (350 x 10(9) cells/L()) , while over half, 54.85% and 56.98% had mean corpuscular volume (MCV) and mean corpuscular haemoglobin (MCH) values below the lower limits of 77.0-105.0fl and 26.0-34.0pg, respectively. A small proportion were outside the reference limits for haematocrit, namely 15.71% below and 7.14% above the normal limits of 0.31l/L – 0.38l/L. For male and female infants, 33.65% and 18.04% of alkaline phosphatase (ALP) values and 7.01% and 14.56% of alanine transaminase (ALT) values were above the upper limits, respectively. For male infants, 10.83% of gamma glutamyl transferase (GGT) values, and for female infants, 31.11% of GGT values were below the lower limits of 12U/L for males and 15U/L for females. We observed no significant deviations (> 10% out of bound) from NHLS reference intervals in the remaining haematology and biochemistry parameters measured.

CONCLUSIONS
Haematology and biochemistry parameters in apparently healthy South African infants deviate frequently from national laboratory reference intervals, including abnormalities consistent with subclinical hypochromic microcytic anaemia. It is important that clinical laboratory reference intervals for children are derived locally, rather than being adopted from Caucasian norms in developed countries, because clinical trials of vaccines, drugs and diagnostics are increasingly conducted in sub-Saharan Africa. This article is protected by copyright. All rights reserved.

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