André Briend1, Jan Van den Broeck, Lars T Fadnes. 1. Department of International Health, University of Tampere Medical School, FIN-33014, Tampere, Finland. andre.briend@gmail.com
Abstract
OBJECTIVE: In malnourished populations, the weight-for-height Z-score (WHZ) distribution is shifted to the left. The aim of nutrition interventions should be to restore a normal WHZ distribution for the whole population. The present paper examines the WHZ change needed by each individual to achieve this objective. DESIGN: We developed a mathematical model of required individual change in WHZ as a function of characteristics of the initial population to restore a normal distribution. This model was then tested by simulating WHZ change needed to restore a normal WHZ distribution in a test population. SETTING: A rural area of Democratic Republic of the Congo with a high prevalence of undernutrition. SUBJECTS: Children under 5 years of age. RESULTS: To restore a normal distribution for the whole population, the WHZ of all children should be shifted. The desired WHZ change of each individual should be higher when the individual's initial WHZ is low, when the mean WHZ of the whole population is low and, for the most wasted individual, when the variance of WHZ and WHZ change in the population are high. Using the suggested model in a simulation on the test population resulted in a WHZ distribution close to the growth standard. CONCLUSIONS: To restore a normal WHZ distribution in wasted populations, nutritional programmes should cover the whole population with a higher weight gain in areas where mean WHZ is low.
OBJECTIVE: In malnourished populations, the weight-for-height Z-score (WHZ) distribution is shifted to the left. The aim of nutrition interventions should be to restore a normal WHZ distribution for the whole population. The present paper examines the WHZ change needed by each individual to achieve this objective. DESIGN: We developed a mathematical model of required individual change in WHZ as a function of characteristics of the initial population to restore a normal distribution. This model was then tested by simulating WHZ change needed to restore a normal WHZ distribution in a test population. SETTING: A rural area of Democratic Republic of the Congo with a high prevalence of undernutrition. SUBJECTS:Children under 5 years of age. RESULTS: To restore a normal distribution for the whole population, the WHZ of all children should be shifted. The desired WHZ change of each individual should be higher when the individual's initial WHZ is low, when the mean WHZ of the whole population is low and, for the most wasted individual, when the variance of WHZ and WHZ change in the population are high. Using the suggested model in a simulation on the test population resulted in a WHZ distribution close to the growth standard. CONCLUSIONS: To restore a normal WHZ distribution in wasted populations, nutritional programmes should cover the whole population with a higher weight gain in areas where mean WHZ is low.
Authors: Kristiane Tislevoll Eide; Lars Thore Fadnes; Ingunn Marie Stadskleiv Engebretsen; Kristine Husøy Onarheim; Henry Wamani; James K Tumwine; Ole Frithjof Norheim Journal: Glob Health Action Date: 2016-07-28 Impact factor: 2.640
Authors: Lars T Fadnes; Victoria Nankabirwa; Ingunn M Engebretsen; Halvor Sommerfelt; Nancy Birungi; Carl Lombard; Sonja Swanevelder; Jan Van den Broeck; Thorkild Tylleskär; James K Tumwine Journal: BMC Public Health Date: 2016-07-12 Impact factor: 3.295