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Sources of variation in energy and nutrient intakes among children from six to thirty months old in a population-based study

Fontes de variação no consumo de energia e nutrientes entre crianças de seis a trinta meses de um estudo de base populacional

Abstracts

The objective of this article was to describe and analyze sources of variation in the dietary intakes of children aged 6 to 30 months. The data was obtained from two 24-hour recall surveys of a sample of 383 children of both sexes in the metropolitan region of Rio de Janeiro, Brazil. Age and the food insecurity scale, which was used as a proxy to characterize socioeconomic differences, were considered. The analysis was based on food groups. The ratio of the coefficients' variation was calculated, and the crude and de-attenuated relative means for energy and macro- and micronutrients were estimated. In addition, the number of 24-hour recall replications was also estimated. Age and food insecurity had significant impacts on the average number of servings of food groups. The coefficients of variation ratios for most nutrients were < 1, except for vitamin C and for children in the younger age group. The number of 24-hour recall required ranged from 1 to 6 days and was higher for vitamin C.

Food Consumption; Diet Surveys; Child


Este artigo tem como objetivo descrever e analisar fontes de variação do consumo dietético de crianças na faixa etária de 6 a 30 meses de idade, obtidas por meio de dois recordatórios de 24 horas, aplicados em uma amostra de 383 crianças de ambos os sexos da Região Metropolitana do Rio de Janeiro, Brasil. Além da idade utilizou-se a escala de insegurança alimentar como proxy para caracterizar diferenças socioeconômicas. A análise baseou-se em grupos de alimentos, calculou-se a razão dos coeficientes de variação, sendo estimadas as médias brutas e deatenuadas para energia, macro e micronutrientes, e o número de repetições de recordatórios de 24 horas. Idade e insegurança alimentar influenciaram significantemente a média das porções dos grupos de alimentos. A razão dos coeficientes de variação para a maioria dos nutrientes foi menor que 1, "exceto para vitamina C no grupo de crianças na faixa etária mais jovem". O número de recordatórios necessários variou de um a seis dias, sendo maiores para vitamina C.

Consumo de Alimentos; Inquéritos sobre Dietas; Criança


ARTIGO ARTICLE

Sources of variation in energy and nutrient intakes among children from six to thirty months old in a population-based study

Fontes de variação no consumo de energia e nutrientes entre crianças de seis a trinta meses de um estudo de base populacional

Rosana Salles-CostaI; Gabriela dos Santos BarrosoI; Melissa Arêas de MelloI; Marina Maria Leite AntunesI; Edna Massae YokooII

IInstituto de Nutrição Josué de Castro, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brasil

IICentro de Ciências Médicas, Universidade Federal Fluminense, Niterói, Brasil

Correspondência Correspondência: R. Salles-Costa Instituto de Nutrição Josué de Castro Universidade Federal do Rio de Janeiro Av. Carlos Chagas Filho 373, CCS, Bloco J, 2º andar Rio de Janeiro, RJ, 21941-902, Brasil rosana@nutricao.ufrj.br

RESUMO

Este artigo tem como objetivo descrever e analisar fontes de variação do consumo dietético de crianças na faixa etária de 6 a 30 meses de idade, obtidas por meio de dois recordatórios de 24 horas, aplicados em uma amostra de 383 crianças de ambos os sexos da Região Metropolitana do Rio de Janeiro, Brasil. Além da idade utilizou-se a escala de insegurança alimentar como proxy para caracterizar diferenças socioeconômicas. A análise baseou-se em grupos de alimentos, calculou-se a razão dos coeficientes de variação, sendo estimadas as médias brutas e deatenuadas para energia, macro e micronutrientes, e o número de repetições de recordatórios de 24 horas. Idade e insegurança alimentar influenciaram significantemente a média das porções dos grupos de alimentos. A razão dos coeficientes de variação para a maioria dos nutrientes foi menor que 1, "exceto para vitamina C no grupo de crianças na faixa etária mais jovem". O número de recordatórios necessários variou de um a seis dias, sendo maiores para vitamina C.

Consumo de Alimentos; Inquéritos sobre Dietas; Criança

ABSTRACT

The objective of this article was to describe and analyze sources of variation in the dietary intakes of children aged 6 to 30 months. The data was obtained from two 24-hour recall surveys of a sample of 383 children of both sexes in the metropolitan region of Rio de Janeiro, Brazil. Age and the food insecurity scale, which was used as a proxy to characterize socioeconomic differences, were considered. The analysis was based on food groups. The ratio of the coefficients' variation was calculated, and the crude and de-attenuated relative means for energy and macro- and micronutrients were estimated. In addition, the number of 24-hour recall replications was also estimated. Age and food insecurity had significant impacts on the average number of servings of food groups. The coefficients of variation ratios for most nutrients were < 1, except for vitamin C and for children in the younger age group. The number of 24-hour recall required ranged from 1 to 6 days and was higher for vitamin C.

Food Consumption; Diet Surveys; Child

Introduction

Gathering and assessing information on the food intake of a population or population groups is a key strategy for nutrition and health research. This information supports the establishment of public policies to improve the population's health and agricultural planning for the country. Based on dietary intake assessment, it is possible to estimate more accurately the amount of energy a population intakes or whether a particular nutrient may be interfering with the health of a population 1.

The most common dietary assessment methods are Food Frequency Questionnaire (FFQ), 24-hour dietary recall, food records, and dietary history. FFQ and diet histories are based on the report of habitual food intake, and these are generally used to obtain information over a longer period of time, usually months or years. Food records and 24-hour recalls are based on foods and amounts that are actually consumed by an individual on one or more specific days 2.

Accurate and precise assessment of the usual dietary intake remains a major challenge in studies of the relationship between diet and disease. Beaton et al. 3 published the results of an analysis of sources of variance in 24-hour dietary recall data and emphasized that there is no ideal dietary method.

Dietary intake is affected by daily, weekly, and seasonal variations, and it tends to change over the years 4. Therefore, to estimate associations between diet and health, it is necessary to estimate individuals' usual intakes with instruments for dietary assessment that are able to gather the wide variability observed in individual and group intake 5.

Measuring an individual's true intake is difficult due to measurement and random errors in dietary assessment. Random errors in food intake arise because each individual differs in the types and amounts of food consumed from one day to the next (within-subject variability) and also because individuals differ from each other in their food intakes (between-subject variability) 4,6.

The estimated consumption of energy and nutrients in infancy is particularly challenging due to the higher number of errors in measuring diet, which compromises the accuracy of methods for assessing food intake in this age group 1. The reliance on parents is one of the factors that contribute to the reduction of accuracy in the measurement of food intake in children; usually the child's mother is called on to report the foods and preparations consumed by them 7.

In adult populations, dietary intake and variance estimates depend on gender, age, day of the week or season, socioeconomic factors and culture 3. Among children, it is also expected that some sources of variation may affect the usual dietary intake. Therefore, some random error might occur and could attenuate the association between dietary intake and disease. Nelson et al. 8 revealed important differences in variances for nutrients between different age groups and genders. In addition, Jahns et al. 9 showed important variance differences between Russian and American children.

Although different studies have characterized within- and between-person variance for energy and nutrient intakes in adults 10,11 very little information is available for children 12,13, especially in Brazil. In addition, most studies of the child population are usually held in public health institutions and at nursery schools 14,15,16,17,18 and few population-based studies have been conducted in recent years 19,20,21,22.

Nutritional intake is increasingly seen as an important environmental factor affecting health and development in early life, thus focusing attention on accurate methods to estimate usual nutrient intakes in the early stage of life. Such methods are essential for research that aims to analyze the burden of dietary intake during early life and disease. This study aimed to contribute to this issue by identifying some potential sources of within-subject variability that may affect random errors and would attenuate any disease association with energy and nutrient intake in infants and very young children in a population-based sample.

Subjects and methods

Data used for these analyses are from a population-based cross-sectional study with a representative sample in Duque de Caxias, a city in the metropolitan area of Rio de Janeiro, Brazil. Using a multistage cluster sampling procedure and considering 14.5% of poverty in this population, a sample size of 1,125 households was estimated. Data were collected in 1,085 households, thus with 3.4% missing. Specifically for children from 6 to 30 months old from 435 sampled households, 402 had data collected, with 7.6% missing. In this paper 383 children that had two days of food intake available were studied (4.7% missing). More details regarding sample design have been described previously by Salles-Costa et al. 23.

This study was approved by the Institutional Review Board of the Social Medicine Institute, Rio de Janeiro State University and participants signed informed consent forms. A questionnaire was used to evaluate socio-demographic characteristics and applied by 16 interviewers. Two 24-hour recalls were used on non-consecutive days that were chosen randomly between two weeks and one month. Due to the children's ages, a proxy, an adult who usually spent most of the time with the child (generally the mother), was used to obtain dietary intake information. The data were collected in face-to-face interviews administered by six trained nutritionists from May to December 2005. Recommendations about portion size, plates, spoons, and bottle were given to the proxy to mitigate information bias. The interviewers attended three training sessions about measuring procedures for the questionnaire and food intake methods.

Data analysis

The socio-demographic characteristics of the study group were available by questionnaire and described using the following variables: per capita income, proxy reference educational level, household family size, food insecurity (estimated by Brazilian Food Insecurity Scale - EBIA 24) and skin color/race (evaluated by interview in accordance with the Brazilian Institute of Geography and Statistics; IBGE) 25.

The variables were presented as prevalence (%) with 95% confidence intervals (95%CI).

Analyses by food group were based on the eight groups proposed by the Brazilian Ministry of Health 26: cereals, vegetables, fruits, dairy products, meats (meat, chicken and fish) and eggs, beans, fats (soy oil, butter) and sweets. Portion size weights (in grams) were estimated for each food group as recommended by Philippi et al. 27.

Food groups were analyzed by two age groups (6-17 months and 18-30 months of age) that were each stratified by groups of socioeconomic marker variables, characterized in this study according to the EBIA (group 1: food security and mild food insecurity; group 2: moderate and severe food insecurity) 28. The validity of the adapted U.S. Household Food Security Supplemental Module (HFSSM) in Brazil has been analyzed in research that replicated the methodology in several urban and/or rural areas throughout the country. This resulted in a recommendation to use the proposed instrument in a representative survey sample, which made it possible to estimate the prevalence of food security at the national level 29.

Dietary intakes of energy, carbohydrates, protein, lipids, calcium, iron, and vitamin C were estimated using the software program NutWin - Programa de Apoio à Nutrição (Departamento de Informática em Saúde, Universidade de São Paulo, Brasil), which is based on the United States Department of Agriculture (USDA) database. For items that were not included in the NutWin software food composition table, the centesimal composition was obtained from the Brazilian Food Composition Table (TACO, versão 1. Núcleo de Estudos e Pesquisas em Alimentação, Universidade Estadual de Campinas, Campinas, Brasil; 5% of foods analyzed). Standard recipes and serving sizes were used to estimate the nutritional composition of preparations that were not included in the software database.

The within- and between-subject variances were estimated, based on the two 24-hour recall means, considering ages and food security groups. The consumption of energy and nutrients was de-attenuated using the methodology proposed by Iowa State University and the software C-Side (Iowa State University; http://www.cssm.iastate.edu/software/cside.html), which examined the distribution of each nutrient and performed the appropriate transformations for the ones with skewed distributions. The de-attenuation was based on the first day of 24-hour recall. The variance ratio of within-subject/between-subject was calculated, and the means of the crude and de-attenuated consumptions of nutrients were estimated for all groups.

To estimate the number of 24-hour recall replications required to estimate the usual intake of the children, we adopted the procedures proposed by Palaniappan et al. 4 and Nelson et al. 8, which estimates the number of replications of 24-hour recalls based on the expected correlation coefficient between the observed and actual intakes (equation 1).

Where, d is the number of replications required; r is the expected correlation coefficient between observed and true intakes (in this study, estimations were calculated for 0.9); and is the within/between-subject variance ratio.

An analysis of household socio-demographic characteristics was carried out, taking into account the effect of the sampling study design, thus estimated parameters were expanded for the study population. Data analysis specifically for food intake of children from six to thirty months old did not consider the effect of the sampling design. The t-test was used to evaluate mean differences with p-value less than 0.05. All procedures were analyzed by Stata software version 11.0 (Stata Corp., College Station, U.S.A.).

Results

The characteristics of the study population are presented in Table 1. Most households had some food insecurity (78%) and incomes less than R$ 200 (77%). The reference person in the family (mother or father) had less than 10 years of education (78.5%), and 71.6% self-referred as black or mulatto.

Age and food insecurity based on two 24-hour recalls had significant effects on the mean of food group servings (Figure 1). Children between 6 and 17 months old showed lower intakes of cereals (p < 0.001), fruits (p < 0.0001), meats and eggs (p < 0.001), fats (p < 0.001) and dairy products (p < 0.0001) than children 18 months old or more (Figure 1a). According to food insecurity, children 6 to 17 months old with moderate to severe food insecurity (Figure 1b) reported lower intake of fat groups than children that were food secure or faced with mild insecurity (p < 0.05). On the other hand, children older than 18 months with food insecurity had significantly lower intakes of cereals, fruits, meat and eggs, sweets and dairy products (p < 0.05) than other children of the same age with food security or mild food insecurity (Figure 1c).


Ratios of within- to between-subject variances were less than 1 for energy and nutrients for the most studied groups. However, vitamin C variance ratios were more than 1 (> 1; 1.16-1.29) for the youngest children. Overall, calcium intakes presented lower variance ratios (0.18-0.54) than energy and other nutrient intakes. Variance ratios were slightly higher for the groups with moderate to severe food insecurity than they were for the group with food security; this was mainly for the protein (1.01) and carbohydrate (1.08) for the young and old age groups, respectively (Table 2).

For those 6 to 17 months old, the de-attenuated means of nutrient intakes tended to remain unchanged, with a reduction of the standard error of the mean, except for vitamin C, which did have a mean reduction. Those 18 months and older showed the same results, although iron and vitamin C had high means after de-attenuation in this group. Considering the socioeconomic marker groups, children with moderate to severe food insecurity at all ages had changes in the mean intake after de-attenuation. These were mainly for vitamin C in the older age group, which was reduced in the food security group and increased in the group with moderate to severe food insecurity (Table 3). Hypothesis tests on the differences between the means were applied, and no statistically significant result related to the energy and all macro and micro nutrients analyzed was found.

The distribution of the de-attenuated mean tends to have a different sharp from the crude data ones mainly when the within-subject variance coefficients are high. For example, the energy means distributions by age and food insecurity groups showed more different sharps in both age groups with moderate to severe food security compared to food security group (Figure 2).


The number of required replications of 24-hour recalls was estimated based on the expected correlation coefficients between the observed and real intakes being equal to 0.9 and in the variance ratio. In general, the results showed that l- to 3-day 24-hour recalls would be required to estimate the energy and nutrient intakes for these children. However, specific macronutrients (like protein and total fat) require more replication days (4 to 5) in the more vulnerable group for food insecurity. In addition, micronutrients like vitamin C had the highest estimated numbers of replication days in the young group (5 to 6 days) (Table 3).

Discussion

Measuring an individual's true food intake is difficult, and it is sometimes a challenge due to measurement and random errors in dietary assessment 4,6. Research that aims to examine the associations between disease outcomes and dietary intakes requires accurate methods to estimate usual nutrient intakes in the early stage of life. For that purpose, information and implications about sources of within-subject variability in nutrient intakes in infants and very young children are very important.

For this study, age and socioeconomic markers were evaluated as potential factors of variability for energy and nutrient intakes, food insecurity groups were considered as a proxy of socioeconomic markers. Gender was not included as a source of variability, as a previous analysis showed no association between gender and dietary intake in this sample 30. Results from other studies in the same age group have also corroborated this assumption 8,12.

Food insecurity scales have been used to investigate socioeconomic characteristics 31 and have been strongly and inversely associated with the household income and food intake of the studied children 32,33,34. The EBIA was adapted and validated based on the HFSSM 25,26,27,28,29. In the sample studied, Salles-Costa et al. 23 observed a significant and inverse association between socioeconomic indicators and food insecurity. Family income was the variable that discriminated both food security and insecurity; these results supported the use of food insecurity level estimated by EBIA as a proxy for a socioeconomic marker in our analyses.

Similar to the variance ratio results observed in our study, Laningan et al. 12 also identified variance ratio coefficients that were generally < 1 among children of the same age in London. The number of days required for reliable dietary assessment is based on the ratio of within- to between-subject variability. Our data indicated that for children aged between 6 and 30 months, the between-subject variability was greater than within-subject variability. Therefore, the estimated number of days was lower than that required for the older age group; similar results have been obtained in earlier studies 8,35.

This effect may be due to the lack of extreme variability in infant diets, which are based on fewer foods than are consumed in adulthood 12. During the first two years of life, infants move from frequent intake of a single food to a more adult diet, with similar meal and snack patterns 36 that involve increasing the numbers of foods of various forms (liquid or solid) and nutrient compositions 37. In a study by Huybrechts et al. 6, the variance ratio coefficients were lower among younger children (< 4 years) than older children (> 4 years) for energy, macronutrient, calcium, iron and vitamin C among pre-school children from Belgium.

In relation to food insecurity and variability in food intake, a significant difference in food group intake has been observed among older children with moderate to severe food insecurity (vulnerable socioeconomic group) compared to the food security group. The first group showed low intakes of cereals, fruits, fats and protein (Figure 1c). This is one important factor that could account for variability and in the high number of days required to obtain r > 0.9 for energy and most nutrients in this group.

According to Nelson et al. 8, a high value of r indicates a high proportion of subjects correctly classified and low proportion of misclassified individuals. If the variances ratio is low, fewer days of observation are required to classify subjects correctly with a high precision.

Micronutrients tend to be concentrated in certain foods. Thus, intakes can be very low or very high, depending on food choices per day 3. This assumption may explain the high number of 24-hour recall replications required to estimate reliable vitamin C intake in this sample. The main food source for this nutrient for children less than 3 years old living in the studied area is fruit (Figure 1a), especially for the youngest group with food security, as presented in Figure 1b. Fruit intake is not usual among children with food insecurity, low income and without extensive food preservation 38. In Duque de Caxias some families live in rural areas or grow one typical tropical fruit that is Barbados cherry (acerola) in their garden. The juice of this fruit is an important source of vitamin C, as it contains more than orange juice (TACO). Thus, eventual or episodic consumption of a specific food, in this case, might overestimate the vitamin C intake and increase the within-subject variability and the number of replication days required for this micronutrient. Janhs et al. 9 observed similar results when comparing the vitamin C intakes of Russian and U.S. children.

Calcium intake was another exception. The lowest number of 24-hour recall replications was estimated for this micronutrient (1- or 2-day). This is understandable as the main food sources of this nutrient are milk and dairy foods, which are regular and predominant features of childhood diets, resulting in low within-sample variability 12.

The study area in Duque de Caxias was a metropolitan area of Rio de Janeiro with a high proportion of families below poverty level and families with low income 39 and this area has limited access to industrialized products (few numbers of supermarkets are available); these factors might contribute to the low variance ratio.

As the sampling design effect was not considered in the analysis of children's food intake this would attenuate the statistical significance of mean estimates, but since we did not find any statistically significant results, and also the coefficients of variance ratios are low, this is unlikely to effect our study. Besides, the method developed at Iowa State University for estimating usual nutrient intake distribution adds an adjustment term to make the adjusted mean match the mean on the original scale (Box-Cox transformation), therefore the de-attenuated mean is similar to the raw one, with low standard error of the mean 40,41.

On the other hand, data on food intake was obtained for non-consecutive days and included a weekend day, avoiding the day of the week effect and the misleading correlations associated with consecutive days of dietary assessment 3. This study showed the age and socioeconomic variables as important factors that could influence the variability of dietary intake in children, even when the within-subject variability does not present such a great magnitude as observed in other age groups (e.g., adolescents, adults). It is noteworthy that these sources of variability are more evident in the vulnerable socioeconomic group as identified by the food insecurity scale. In addition, the variability in macro- and micronutrient intakes was greater than the variance in the intake of energy; this was mainly true for micronutrients that are concentrated in a few food items, like vitamin C. Therefore, the number of 24-hour recall replications required to estimate the usual intake in this age group is low. However, a greater number of days will be required among low income groups and for vitamin C to mitigate random errors from these sources that might attenuate epidemiological risk estimates in any disease outcome related to the dietary intake of children in this population.

Contributors

R. Salles-Costa participated in the overall study concept and the design of the study, supervising data collection, statistical analysis and manuscript writing and revising. G. S. Barroso was responsible for the PC-Side statistical analysis. M. A. Mello collaborated on the interpretation of PC-Side statistical analysis. M. M. L. Antunes participated in the analysis and interpretation of food intake. E. M. Yokoo participated in the manuscript concept, statistical analysis and manuscript writing and revising.

Acknowledgments

The authors thank Dr. Rosely Sichieri for her support, conception and coordination on the study design as well as her suggestions for this manuscript. This study was supported by the National Research Council (CNPq; Grant CT-Agronegócio MCT/CNPq/MDS-2003, nº. 503139/2003-3).

Submitted on 24/Sep/2009?

Final version resubmitted on 23/Dec/2009

Approved on 27/Feb/2010

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  • Correspondência:
    R. Salles-Costa
    Instituto de Nutrição Josué de Castro
    Universidade Federal do Rio de Janeiro
    Av. Carlos Chagas Filho 373, CCS, Bloco J, 2º andar
    Rio de Janeiro, RJ, 21941-902, Brasil
  • Publication Dates

    • Publication in this collection
      16 July 2010
    • Date of issue
      June 2010

    History

    • Accepted
      27 Feb 2010
    • Reviewed
      23 Dec 2009
    • Received
      24 Sept 2009
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