Abstract

BackgroundEnsuring the quality of anthropometry data is paramount for getting accurate estimates of malnutrition prevalence among children aged 6–59 months in humanitarian and refugee settings. Previous reports based on data from Demographic and Health Surveys suggested systematic differences in anthropometric data quality between the younger and older groups of preschool children.MethodsWe analyzed 712 anthropometric population-representative field surveys from humanitarian and refugee settings conducted during 2011–2018. We examined and compared the quality of five anthropometric indicators in children aged 6–23 months and children aged 24–59 months: weight for height, weight for age, height for age, body mass index for age and mid-upper arm circumference (MUAC) for age. Using the z-score distribution of each indicator, we calculated the following parameters: standard deviation (SD), percentage of outliers, and measures of distribution normality. We also examined and compared the quality of height, weight, MUAC and age measurements using missing data and rounding criteria.ResultsBoth SD and percentage of flags were significantly smaller on average in older than in younger age group for all five anthropometric indicators. Differences in SD between age groups did not change meaningfully depending on overall survey quality or on the quality of age ascertainment. Over 50% of surveys overall did not deviate significantly from normality. The percentage of non-normal surveys was higher in older than in the younger age groups. Digit preference score for weight, height and MUAC was slightly higher in younger age group, and for age slightly higher in the older age group. Children with reported exact date of birth (DOB) had much lower digit preference for age than those without exact DOB. SD, percentage flags and digit preference scores were positively correlated between the two age groups at the survey level, such as those surveys showing higher anthropometry data quality in younger age group also tended to show higher quality in older age group.ConclusionsThere should be an emphasis on increased rigor of training survey measurers in taking anthropometric measurements in the youngest children. Standardization test, a mandatory component of the pre-survey measurer training and evaluation, of 10 children should include at least 4–5 children below 2 years of age.

Highlights

  • Ensuring the quality of anthropometry data is paramount for getting accurate estimates of malnutrition prevalence among children aged 6–59 months in humanitarian and refugee settings

  • Data from 809 anthropometric surveys conducted by Action Contre la Faim (ACF) or United Nations High Commissioner for Refugees (UNHCR) between 2011 and 2018, that measured sex, age, weight, and height in children aged 6–59 months, were considered for analysis

  • The surveys were conducted in 41 countries, regional origin of retained surveys is shown in Supplementary File

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Summary

Introduction

Ensuring the quality of anthropometry data is paramount for getting accurate estimates of malnutrition prevalence among children aged 6–59 months in humanitarian and refugee settings. Previous reports based on data from Demographic and Health Surveys suggested systematic differences in anthropometric data quality between the younger and older groups of preschool children. Parameters for assessing anthropometric data quality, put forth by a World Health Organization (WHO) Expert Committee in 1995 and expanded on in a 2019 report by a WHO-UNICEF (United Nations Children’s Fund) Technical Expert Advisory Group on Nutrition Monitoring (TEAM), are well established [1, 2]. Six key parameters are recommended: standard deviation of zscore distribution, evaluation of missing data, sex ratios, digit preference, outlier values, and measures of the shape of z-score distribution. Standard deviation (SD) of z-score distribution is a key metric of measurement error because the introduction of random error results in a widening of the observed distribution. Prior research has demonstrated independence between the nutritional status of a population, as measured by the mean z-score value, and standard deviation [5, 6]

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